Search Result

Pathways Recommended:	PI3K/Akt/mTOR Neuronal Signaling JAK/STAT Signaling

Results for "

Akt/mTOR signaling

" in MedChemExpress (MCE) Product Catalog:

By Targets:	Akt (107) mTOR (102) 5-HT Receptor (16) Acetyl-CoA Carboxylase (1) Acyltransferase (1) Adrenergic Receptor (4) AMPK (12) Amyloid-β (1) Anaplastic lymphoma kinase (ALK) (1) Androgen Receptor (2) Antibiotic (4) Apoptosis (106) Atg8/LC3 (3) Autophagy (48) Bacterial (14) Bcl-2 Family (15) Beclin1 (1) Beta-secretase (2) Btk (1) c-Myc (2) Cadherin (2) Calcium Channel (3) Cannabinoid Receptor (1) Carnitine Palmitoyltransferase (CPT) (1) Casein Kinase (2) Caspase (17) CaSR (1) CCR (1) CDK (8) COX (8) DNA/RNA Synthesis (3) Dopamine Receptor (6) Dopamine β-hydroxylase (2) EGFR (9) Endogenous Metabolite (5) Epigenetic Reader Domain (1) ERK (20) Estrogen Receptor/ERR (1) FABP (1) FAK (4) Farnesyl Transferase (2) Fatty Acid Synthase (FASN) (1) Ferroptosis (4) FOXO (1) Fungal (3) FXR (2) G protein-coupled Bile Acid Receptor 1 (1) GABA Receptor (2) GLUT (2) Glutaminase (1) Glutathione Reductase (GR) (1) Glycosidase (1) GSK-3 (3) HDAC (2) Hedgehog (2) HIF/HIF Prolyl-Hydroxylase (7) Histamine Receptor (1) Histone Acetyltransferase (1) Histone Demethylase (2) Histone Methyltransferase (1) HIV (1) HSP (2) HSV (1) IAP (2) IFNAR (1) IGF-1R (1) Influenza Virus (1) Interleukin Related (6) IRE1 (2) Isotope-Labeled Compounds (4) JAK (3) JNK (9) Keap1-Nrf2 (4) Lipoxygenase (2) MDM-2/p53 (3) MEK (1) mGluR (1) MHC (1) Microtubule/Tubulin (5) Mitochondrial Metabolism (3) Mitophagy (1) MMP (7) NADPH Oxidase (3) Necroptosis (1) NF-κB (21) NO Synthase (3) Nuclear Factor of activated T Cells (NFAT) (1) Organoid (1) P-glycoprotein (2) p38 MAPK (14) PAK (3) Paraptosis (1) Parasite (5) PARP (9) PDK-1 (3) PERK (2) PGC-1α (1) Phosphatase (3) Phosphodiesterase (PDE) (2) PI3K (68) Piezo Channel (2) Pim (1) PKA (1) PKC (3) PPAR (4) Prostaglandin Receptor (2) PROTACs (1) PTEN (2) Ras (8) Reactive Oxygen Species (ROS) (20) Reference Standards (21) Ribosomal S6 Kinase (RSK) (1) RIO Kinase (1) ROCK (3) ROR (2) Sirtuin (1) SOD (1) SphK (1) Src (1) STAT (8) Survivin (3) Tau Protein (1) Telomerase (1) TGF-beta/Smad (6) TNF Receptor (5) Topoisomerase (1) Transmembrane Glycoprotein (1) Tyrosinase (1) VEGFR (9) Wee1 (2) Wnt (3) YAP (2) β-catenin (3)
By Research Areas:	Cancer (141) Cardiovascular Disease (22) Endocrinology (8) Infection (21) Inflammation/Immunology (41) Metabolic Disease (30) Neurological Disease (42)

By Targets:

Akt (107)

mTOR (102)

5-HT Receptor (16)

Acetyl-CoA Carboxylase (1)

Acyltransferase (1)

Adrenergic Receptor (4)

AMPK (12)

Amyloid-β (1)

Anaplastic lymphoma kinase (ALK) (1)

Androgen Receptor (2)

Antibiotic (4)

Apoptosis (106)

Atg8/LC3 (3)

Autophagy (48)

Bacterial (14)

Bcl-2 Family (15)

Beclin1 (1)

Beta-secretase (2)

Btk (1)

c-Myc (2)

Cadherin (2)

Calcium Channel (3)

Cannabinoid Receptor (1)

Carnitine Palmitoyltransferase (CPT) (1)

Casein Kinase (2)

Caspase (17)

CaSR (1)

CCR (1)

CDK (8)

COX (8)

DNA/RNA Synthesis (3)

Dopamine Receptor (6)

Dopamine β-hydroxylase (2)

EGFR (9)

Endogenous Metabolite (5)

Epigenetic Reader Domain (1)

ERK (20)

Estrogen Receptor/ERR (1)

FABP (1)

FAK (4)

Farnesyl Transferase (2)

Fatty Acid Synthase (FASN) (1)

Ferroptosis (4)

FOXO (1)

Fungal (3)

FXR (2)

G protein-coupled Bile Acid Receptor 1 (1)

GABA Receptor (2)

GLUT (2)

Glutaminase (1)

Glutathione Reductase (GR) (1)

Glycosidase (1)

GSK-3 (3)

HDAC (2)

Hedgehog (2)

HIF/HIF Prolyl-Hydroxylase (7)

Histamine Receptor (1)

Histone Acetyltransferase (1)

Histone Demethylase (2)

Histone Methyltransferase (1)

HIV (1)

HSP (2)

HSV (1)

IAP (2)

IFNAR (1)

IGF-1R (1)

Influenza Virus (1)

Interleukin Related (6)

IRE1 (2)

Isotope-Labeled Compounds (4)

JAK (3)

JNK (9)

Keap1-Nrf2 (4)

Lipoxygenase (2)

MDM-2/p53 (3)

MEK (1)

mGluR (1)

MHC (1)

Microtubule/Tubulin (5)

Mitochondrial Metabolism (3)

Mitophagy (1)

MMP (7)

NADPH Oxidase (3)

Necroptosis (1)

NF-κB (21)

NO Synthase (3)

Nuclear Factor of activated T Cells (NFAT) (1)

Organoid (1)

P-glycoprotein (2)

p38 MAPK (14)

PAK (3)

Paraptosis (1)

Parasite (5)

PARP (9)

PDK-1 (3)

PERK (2)

PGC-1α (1)

Phosphatase (3)

Phosphodiesterase (PDE) (2)

PI3K (68)

Piezo Channel (2)

Pim (1)

PKA (1)

PKC (3)

PPAR (4)

Prostaglandin Receptor (2)

PROTACs (1)

PTEN (2)

Ras (8)

Reactive Oxygen Species (ROS) (20)

Reference Standards (21)

Ribosomal S6 Kinase (RSK) (1)

RIO Kinase (1)

ROCK (3)

ROR (2)

Sirtuin (1)

SOD (1)

SphK (1)

Src (1)

STAT (8)

Survivin (3)

Tau Protein (1)

Telomerase (1)

TGF-beta/Smad (6)

TNF Receptor (5)

Topoisomerase (1)

Transmembrane Glycoprotein (1)

Tyrosinase (1)

VEGFR (9)

Wee1 (2)

Wnt (3)

YAP (2)

β-catenin (3)

By Research Areas:

Cancer (141)

Cardiovascular Disease (22)

Endocrinology (8)

Infection (21)

Inflammation/Immunology (41)

Metabolic Disease (30)

Neurological Disease (42)

162

Inhibitors & Agonists

Screening Libraries

Fluorescent Dyes

Biochemical Assay Reagents

Peptides

Inhibitory Antibodies

Natural
Products

Isotope-Labeled Compounds

GMP Molecules

Targets Recommended: mTOR Akt RGS Protein

Cat. No.	Product Name	Target	Research Areas	Chemical Structure

HY-10071

Y-27632 Maximum Cited Publications 533 Publications Verification	ROCK NADPH Oxidase mTOR Reactive Oxygen Species (ROS) NF-κB Apoptosis Akt Autophagy PAK Ras	Cancer
Y-27632 is a ROCK inhibitor with K_i values of 220 nM and 300 nM for ROCK1 and ROCK2, respectively. Y-27632 exerts anti-inflammatory and immunomodulatory effects in systemic lupus erythematosus models by inhibiting the ROCK/NF-κB pathway. Y-27632 enhances autophagy by inhibiting the *AKT/mTOR* pathway, thereby inducing apoptosis apoptosis in oral squamous cell carcinoma. Y-27632 induces the formation of tunneling nanotubes in ARPE-19 cells and significantly enhances mitochondrial transfer through these channels. Y-27632 promotes neurite outgrowth in PC12 cells by activating the *Rac1/NOX1/ROS/AKT/PAK1* signaling cascade .

HY-10358

MK-2206 dihydrochloride 460+ Cited Publications MK-2206 (2HCl)	Bcl-2 Family Apoptosis mTOR Akt GSK-3	Cardiovascular Disease Inflammation/Immunology Cancer
MK-2206 dihydrochloride (MK-2206 2HCl) is an orally active pan-AKT inhibitor, with IC₅₀ values of 8 nM, 12 nM and 65 nM against **AKT1, AKT2 and AKT3, respectively. MK-2206 dihydrochloride inhibits the Akt/mTOR** signaling pathway and reduces the levels of downstream GSK3β and Mcl-1 via proteasomal degradation. MK-2206 dihydrochloride induces G1-phase cell cycle arrest, apoptosis, epithelial-mesenchymal transition, fibroblast activation and extracellular matrix deposition. MK-2206 dihydrochloride causes transient hyperglycemia and hyperinsulinemia in animals. MK-2206 dihydrochloride can be used in research related to solid tumors, renal fibrosis and hypercholesterolemia .

HY-108232

MK-2206 460+ Cited Publications	Bcl-2 Family Apoptosis mTOR Akt GSK-3	Metabolic Disease Inflammation/Immunology Cancer
MK-2206 is an orally active pan-AKT inhibitor, with IC₅₀ values of 8 nM, 12 nM and 65 nM against **AKT1, AKT2 and AKT3, respectively. MK-2206 inhibits the Akt/mTOR** signaling pathway and reduces the levels of downstream GSK3β and Mcl-1 via proteasomal degradation. MK-2206 induces G1-phase cell cycle arrest, apoptosis, epithelial-mesenchymal transition, fibroblast activation and extracellular matrix deposition. MK-2206 causes transient hyperglycemia and hyperinsulinemia in animals. MK-2206 can be used in research related to solid tumors, renal fibrosis and hypercholesterolemia .

HY-N0047

Polyphyllin I 5 Publications Verification	JNK mTOR Akt PDK-1 Autophagy Apoptosis	Cancer
Polyphyllin I is a bioactive constituent extracted from Paris polyphylla, has strong anti-tumor activity. Polyphyllin I is an activator of the JNK signaling pathway and is an inhibitor of *PDK1/Akt/mTOR* signaling. Polyphyllin I induces autophagy, G2/M phase arrest and apoptosis .

HY-N0787

Cryptochlorogenic acid 4 Publications Verification 4-Caffeoylquinic acid; 4-O-Caffeoylquinic acid	Endogenous Metabolite NF-κB Keap1-Nrf2 mTOR HIF/HIF Prolyl-Hydroxylase	Inflammation/Immunology
Cryptochlorogenic acid (4-Caffeoylquinic acid) is a naturally occurring phenolic acid compound with oral effectiveness, anti-inflammatory, antioxidant and anti-cardiac hypertrophy effects. Alleviating LPS (HY-D1056) and ISO (HY-B0468) by regulating proinflammatory factor expression, inhibiting NF-κB activity, promoting Nrf2 nuclear transfer, and regulating PI3Kα/Akt/ *mTOR* / HIF-1α signaling pathway Induced physiological stress response .

HY-B0965

Thioridazine hydrochloride 5 Publications Verification	Dopamine Receptor Apoptosis 5-HT Receptor Autophagy Bacterial	Infection Neurological Disease Cancer
Thioridazine hydrochloride, an orally active antagonist of the dopamine receptor D2 family proteins, exhibits potent anti-psychotic and anti-anxiety activities. Thioridazine hydrochloride is also a potent inhibitor of *PI3K-Akt-mTOR* signaling pathways with anti-angiogenic effect. Thioridazine hydrochloride shows antiproliferative and apoptosis induction effects in various types of cancer cells, with specificity on targeting cancer stem cells (CSCs) .

HY-B0965A

Thioridazine 5 Publications Verification	Dopamine Receptor Apoptosis 5-HT Receptor Autophagy Bacterial	Neurological Disease Cancer
Thioridazine, an antagonist of the dopamine receptor D2 family proteins, exhibits potent anti-psychotic and anti-anxiety activities. Thioridazine is also a potent inhibitor of *PI3K-Akt-mTOR* signaling pathways with anti-angiogenic effect. Thioridazine shows antiproliferative and apoptosis induction effects in various types of cancer cells, with specificity on targeting cancer stem cells (CSCs) .

HY-14151

Prucalopride 4 Publications Verification	5-HT Receptor Apoptosis Autophagy	Neurological Disease Cancer
Prucalopride is an orally active, selective and specific 5-HT 4 receptor agonist (high affinity), with pK_is of 8.6 and 8.1 for human 5-HT4a/4b receptors, respectively. Prucalopride improves intestinal motility by promoting regeneration of the intestinal nervous system in rats. Prucalopride also shows anticancer activity by blocking of the *PI3K/AKT/mTor* signaling pathway. Prucalopride can be used in studies of chronic constipation, pseudo-intestinal obstruction and cancer .

HY-N0876

Arenobufagin 4 Publications Verification	Apoptosis Autophagy PI3K Akt mTOR PARP Caspase Atg8/LC3	Cancer
Arenobufagin is a natural bufadienolide that can be extracted from toad venom. Arenobufagin can induce apoptosis and autophagy in human hepatocellular carcinoma cells through inhibition of *PI3K/Akt/mTOR* pathway. Arenobufagin has potent antineoplastic activity against HCC HepG2 cells as well as corresponding multidrug-resistant HepG2/ADM cells. Arenobufagin can inhibit VEGF-mediated angiogenesis through suppression of VEGFR-2 signaling pathway .

HY-N0279

Cardamonin Maximum Cited Publications 17 Publications Verification Cardamomin; Alpinetin chalcone	NF-κB STAT Wnt β-catenin Bcl-2 Family Apoptosis	Cardiovascular Disease Metabolic Disease Inflammation/Immunology Cancer
Cardamonin can be found from cardamom, and can target various signaling molecules, transcriptional factors, cytokines and enzymes. Cardamonin can inhibit *mTOR, NF-κB, Akt, STAT3, Wnt/β-catenin* and COX-2. Cardamonin shows anticancer, anti-inflammatory, antimicrobial and antidiabetic activities .

HY-N6950

Hederacolchiside A1 1 Publications Verification	PI3K Akt mTOR Parasite Apoptosis	Infection Cancer
Hederacolchiside A1, isolated from Pulsatilla chinensis, suppresses proliferation of tumor cells by inducing apoptosis through modulating *PI3K/Akt/mTOR* signaling pathway . Hederacolchiside A1 has antischistosomal activity, affecting parasite viability both in vivo and in vitro .

HY-W016412

Coenzyme Q0 2 Publications Verification CoQ0	Apoptosis Autophagy EGFR Akt mTOR Caspase Bcl-2 Family Reactive Oxygen Species (ROS) PARP COX NO Synthase TNF Receptor Interleukin Related MMP NF-κB	Neurological Disease Inflammation/Immunology Cancer
Coenzyme Q0 (CoQ0) is a potent, oral active ubiquinone compound can be derived from Antrodia cinnamomea. Coenzyme Q0 induces apoptosis and autophagy, suppresses of HER-2/AKT/mTOR signaling to potentiate the apoptosis and autophagy mechanisms. Coenzyme Q0 regulates NFκB/AP-1 activation and enhances Nrf2 stabilization in attenuation of inflammation and redox imbalance. Coenzyme Q0 has anti-angiogenic activity through downregulation of MMP-9/NF-κB and upregulation of HO-1 signaling .

HY-N0735

Phellodendrine chloride 2 Publications Verification	Autophagy Apoptosis AMPK mTOR STAT Interleukin Related PKC p38 MAPK NF-κB COX Reactive Oxygen Species (ROS) PI3K Akt MMP	Neurological Disease Inflammation/Immunology Cancer
Phellodendrine chloride is an orally active plant alkaloid. Phellodendrine chloride inhibits the proliferation of KRAS-mutated pancreatic cancer cells by suppressing macropinocytosis and glutamine metabolism, inducing ROS accumulation and mitochondrial apoptosis. Phellodendrine chloride promotes autophagy by activating the *AMPK/mTOR* pathway, alleviating intestinal damage in ulcerative colitis. Phellodendrine chloride can alleviate gouty arthritis by inhibiting the IL-6/STAT3 signaling pathway. Phellodendrine chloride suppresses allergic reactions by altering the conformation of MRGPRB3/MRGPRX2 protein, thereby inhibiting the activation of PKC and subsequent downstream MAPK and NF-κB signaling. Phellodendrine chloride inhibits the *AKT/NF-κB* pathway and down-regulates the expression of COX-2, thereby protecting zebrafish embryos from oxidative stress. Phellodendrine chloride has an anti-major depressive disorder (MDD) effect by down-regulating CHRM1, HTR1A, and the *PI3K/Akt* signaling pathway .

HY-N0712

Typhaneoside 3 Publications Verification	Autophagy mTOR Akt FXR	Cardiovascular Disease Neurological Disease Metabolic Disease Cancer
Typhaneoside is an orally bioavailable signal modulator and cellular regulator. Typhaneoside regulates the PI3K/Akt/mTOR autophagy transduction pathway. Typhaneoside promotes the activation of AMP-activated protein kinase and Caspase-3, induces apoptosis, ferroptosis, autophagy, ROS accumulation, and cell cycle arrest at the G₂/M phase, and reduces cancer cell viability. Typhaneoside activates the farnesoid X receptor signaling pathway, improves glucose and lipid metabolism, alleviates inflammatory responses, oxidative stress and hepatic lipid accumulation, and exerts hepatoprotective effects. Typhaneoside is applicable to research related to post-myocardial infarction heart failure, acute myeloid leukemia, non-alcoholic fatty liver disease, and neurological disorders .

HY-131686

Ganglioside GT1b (bovine) ammonium	Akt mTOR EGFR ERK	Infection Neurological Disease Metabolic Disease Inflammation/Immunology Cancer
Ganglioside GT1b (bovine) ammonium is a member of the ganglioside family. Ganglioside GT1b (bovine) ammonium acts as a protective signal against nerve injury-induced spinal synapse elimination. Ganglioside GT1b (bovine) ammonium induces HA synthesis and the phosphorylation of *Akt/mTOR* in orbital fibroblasts. Ganglioside GT1b (bovine) ammonium enhances porcine oocyte maturation and induce activation of EGFR and ERK1/2 signaling. Ganglioside GT1b (bovine) ammonium is a putative host cell receptor for the Merkel cell polyomavirus. Ganglioside GT1b (bovine) ammonium can be used for the researches of cancer, infection, immunology, endocrinology and neurological disease, such as Thyroid eye disease .

HY-N0819

Raddeanin A 1 Publications Verification	Apoptosis PI3K Akt ERK mTOR Wnt β-catenin Wee1 JNK VEGFR CDK	Neurological Disease Inflammation/Immunology Cancer
Raddeanin A is an oleanane-type triterpenoid saponin with oral activity. Raddeanin A inhibits SRC, *mTOR, JNK, VEGFR2, NLRP3* inflammasome, Wnt/β-catenin, Wee1, *PI3K/AKT* signaling pathway, MAPK/ERK signaling pathway, AR-FL, AR-Vs, and downregulates the expression of p-PI3K and p-AKT. Raddeanin A inhibits osteoclast formation, bone resorption, osteolysis, cancer cell invasion, migration, proliferation, angiogenesis and epithelial-mesenchymal transition, while induces apoptosis, cell cycle arrest, ROS production, immunogenic cell death and dendritic cell maturation. Raddeanin A improves blood-retinal barrier function, alleviates inflammation, regulates the tumor microenvironment, and enhances the activity of anti-PD-1 antibody. Raddeanin A is applicable to the research of breast cancer-associated osteolysis, human osteosarcoma, colorectal cancer, glioblastoma, Alzheimer's disease, cholangiocarcinoma, melanoma, non-small cell lung cancer, castration-resistant prostate cancer and multiple myeloma .

HY-N2590

Lupenone	Parasite PI3K Akt mTOR NF-κB	Infection Inflammation/Immunology Cancer
Lupenone is an orally active lupine-type triterpenoid that can be isolated from Musa basjoo. Lupenone Lupenone plays a role through the *PI3K/Akt/mTOR* and NF-κB signaling pathways. Lupenone has anti-inflammatory, antiviral, antidiabetic and anticancer activities .

HY-19763

Ifupinostat BEBT-908	PI3K Ferroptosis c-Myc Akt Reactive Oxygen Species (ROS) Histone Acetyltransferase mTOR	Neurological Disease Metabolic Disease Inflammation/Immunology Cancer
Ifupinostat (BEBT-908) is a blood-brain barrier-permeable PI3K/HDAC inhibitor. Ifupinostat exerts anticancer activity against hematologic malignancies, lung cancer, colon cancer, brain cancer and other cancers. Ifupinostat inhibits the *PI3K/AKT/mTOR* signaling pathway, suppresses c-Myc expression and induces ferroptosis. Ifupinostat can be used in tumor research .

HY-B0319

Tioconazole 4 Publications Verification UK-20349	Fungal Antibiotic Parasite Akt PI3K mTOR Autophagy	Infection Cancer
Tioconazole (UK-20349) is a broad-spectrum antifungal imidazole derivative. Tioconazole inhibits several dermatophytes and yeasts, with MIC₅₀ values of less than 3.12 mg/L and 9 mg/L, respectively. Additionally, Tioconazole exhibits anti-parasitic activity. Tioconazole exerts anticancer activity by inhibiting the *PI3K/AKT/mTOR* signaling pathway and blocking autophagy. Tioconazole is applicable for research in the fields of anti-infection and anticancer therapy .

HY-W073128

Perfluorotetradecanoic acid PFTeDA	PPAR Apoptosis PGC-1α AMPK Akt mTOR Reactive Oxygen Species (ROS)	Endocrinology
Perfluorotetradecanoic acid (PFTeDA) is an orally active perfluoroalkyl substance. Perfluorotetradecanoic acid directly binds to the ligand-binding domain of purified hPPARγ, with a K_d value of 157.8 μM. Perfluorotetradecanoic acid significantly reduces the activity of the SIRT1/PGC1α and AMPK signaling pathways while stimulating the activity of the *AKT1/mTOR* signaling pathway. Perfluorotetradecanoic acid significantly upregulates the expression of corticosterone biosynthesis genes. Perfluorotetradecanoic acid increases ROS levels and promotes Apoptosis. Perfluorotetradecanoic acid impairs Leydig cell function and male reproductive endocrine function in adult male rats .

HY-N6983

Licoricesaponin G2	TNF Receptor PI3K Akt mTOR Reactive Oxygen Species (ROS)	Inflammation/Immunology Cancer
Licoricesaponin G2 is an orally active component found in Licorice. Licoricesaponin G2 significantly ameliorates Bleomycin (HY-108345)-induced pulmonary fibrosis by inhibiting the TNF-α signaling pathway, reducing epithelial-mesenchymal transition, and decreasing extracellular matrix deposition. Licoricesaponin G2 inhibits cancer cells proliferation, migration, inhibits *PI3K/AKT/mTOR* signaling pathway and increases ROS production. Licoricesaponin G2 can be used for the research of lung cancer and pulmonary fibrosis .

HY-N3651

Curzerenone 1 Publications Verification	Bacterial Reactive Oxygen Species (ROS) Apoptosis PI3K Akt mTOR	Infection Cancer
Curzerenone is an orally active sesquiterpene compound and Antibacterial agent. Curzerenone can be isolated from Curcuma zedoaria and Curcuma aeruginosa plants. Curzerenone increases ROS levels, activates Apoptotic signaling pathways, and attenuates the *PI3K/AKT/mTOR* signaling pathway. Curzerenone exhibits anticancer activity against liver cancer and cervical cancer. Curzerenone has antioxidant effects. Curzerenone shows weak antibacterial activity against Escherichia coli. Curzerenone can be used in research related to hepatocellular carcinoma, cervical cancer, and Escherichia coli infection .

HY-N2447

Amarogentin 2 Publications Verification	AMPK Apoptosis	Metabolic Disease Cancer
Amarogentin is a secoiridoid glycoside that is mainly extracted from Swertia and Gentiana roots. Amarogentin exhibits many biological effects, including anti-oxidative, anti-tumour, and anti-diabetic activities. Amarogentin exerts hepatoprotective and immunomodulatory effects. Amarogentin promotes apoptosis, arrests G2/M cell cycle and downregulates of PI3K/Akt/mTOR signalling pathways. Amarogentin exerts beneficial vasculo-metabolic effect by activating AMPK .

HY-103100

SB-699551 1 Publications Verification	5-HT Receptor Epigenetic Reader Domain Akt Ribosomal S6 Kinase (RSK) FOXO	Neurological Disease Metabolic Disease Inflammation/Immunology Cancer
SB-699551 is a selective and brain penetrant 5-HT5A receptor antagonist with a pK_i of 8.2 nM. SB-699551 shows high selectivity over most other 5-HT receptor subtypes, dopamine receptors, and α1B adrenoceptor. SB-699551 disrupts Gαi/o-coupled and *PI3K/AKT/mTOR* signaling pathways, alters CREB, ATF1, AKT, PRAS40, S6K, and FOXO1 phosphorylation in breast tumor cells. SB-699551 can be used for the research of anxiety, breast cancer, and Alzheimer's disease .

HY-16441

Tegafur-gimeracil-oteracil potassium S-1; TS-1	PI3K Akt mTOR Apoptosis Bcl-2 Family	Cancer
Tegafur-gimeracil-oteracil potassium (S-1; TS-1) is an orally active anticancer agent composed of Tegafur (HY-17400), Gimeracil (HY-17469), and Oteracil potassium (HY-17511). Tegafur-gimeracil-oteracil potassium inhibits the proliferation, migration and invasion of endometrial cancer cells and induces apoptosis by blocking the *PI3K/AKT/mTOR* signaling pathway. Tegafur-gimeracil-oteracil potassium can be used in research related to endometrial cancer and gastric cancer with peritoneal metastasis .

HY-115449

Chromeceptin 2 Publications Verification 94G6	IGF-1R Akt mTOR	Cancer
Chromeceptin (94G6) is an *IGF signaling* pathway** inhibitor. Chromeceptin suppresses IGF2 expression at mRNA and protein levels in hepatocyte and HCC cells. Chromeceptin inhibits the phosphorylation levels of AKT and mTOR .

HY-18366A

RU-SKI 43 hydrochloride 2 Publications Verification	Hedgehog	Cancer
RU-SKI 43 hydrochloride is a potent and selective Hedgehog acyltransferase (Hhat) inhibitor with an IC₅₀ of 850 nM. RU-SKI 43 hydrochloride reduces Gli-1 activation through Smoothened-independent non-canonical signaling and decreases Akt and mTOR pathway activity. RU-SKI 43 hydrochloride has anti-cancer activity .

HY-128932

Cefminox sodium 1 Publications Verification MT-141	Antibiotic Bacterial PPAR Prostaglandin Receptor PTEN Akt mTOR	Infection Cardiovascular Disease Endocrinology
Cefminox sodium (MT-141) is a semisynthetic cephamycin, which exhibits antibacterial activity. Cefminox sodium is a broad-spectrum, bactericidal cephalosporin antibiotic. Cefminox sodium also acts as a dual agonist of prostacyclin receptor (IP) and PPARγ. Cefminox sodium upregulates cAMP production and PTEN expression and inhibits *Akt/mTOR* signaling. Cefminox sodium also prevents pulmonary arterial hypertension in rat model .

HY-15672

FM19G11	HIF/HIF Prolyl-Hydroxylase	Neurological Disease Cancer
FM19G11 is a hypoxia-inducible factor-1-alpha (HIF-1α) inhibitor, and it inhibits hypoxia-induced luciferase activity with an IC₅₀ of 80 nM in HeLa cells. FM19G11 modulates other signaling pathways, including *mTOR* and PI3K/Akt/eNOS, when the HIF-1α pathway is inactivated under normoxic conditions .

HY-139534

ARI-1 1 Publications Verification	ROR Apoptosis Akt mTOR PARP	Cancer
ARI-1 is a receptor tyrosine kinase-like orphan receptor 1 (ROR1) inhibitor. ARI-1 blocks the *PI3K/AKT/mTOR* signaling pathway in a ROR1-dependent manner. ARI-1 upregulates cleaved-PARP and p-P38. ARI-1 induces Apoptosis. ARI-1 has anticancer activity against non-small cell lung cancer .

HY-N0427

Phellodendrine	Akt NF-κB AMPK mTOR PKC STAT Interleukin Related p38 MAPK COX Reactive Oxygen Species (ROS) Apoptosis Autophagy PI3K MMP	Neurological Disease Inflammation/Immunology Cancer
Phellodendrine is an orally active plant alkaloid. Phellodendrine inhibits the proliferation of KRAS-mutated pancreatic cancer cells by suppressing macropinocytosis and glutamine metabolism, inducing ROS accumulation and mitochondrial apoptosis. Phellodendrine promotes autophagy by activating the *AMPK/mTOR* pathway, alleviating intestinal damage in ulcerative colitis. Phellodendrine can alleviate gouty arthritis by inhibiting the IL-6/STAT3 signaling pathway. Phellodendrine suppresses allergic reactions by altering the conformation of MRGPRB3/MRGPRX2 protein, thereby inhibiting the activation of PKC and subsequent downstream MAPK and NF-κB signaling. Phellodendrine inhibits the *AKT/NF-κB* pathway and down-regulates the expression of COX-2, thereby protecting zebrafish embryos from oxidative stress. Phellodendrine has an anti-major depressive disorder (MDD) effect by down-regulating CHRM1, HTR1A, and the *PI3K/Akt* signaling pathway .

HY-151622

PI3K/mTOR Inhibitor-11 2 Publications Verification	PI3K mTOR	Cancer
PI3K/mTOR Inhibitor-11 is an orally active *PI3K/mTOR* inhibitor (IC₅₀: 3.5, 4.6, and 21.3 nM for PI3Kα, PI3Kδ, and mTOR). PI3K/mTOR Inhibitor-11 regulates the PI3K/AKT/mTOR signaling pathway by inhibiting the phosphorylation of AKT and S6 proteins. PI3K/mTOR Inhibitor-11 can be used in the research of cancers .

HY-N12124

Monascuspiloin Monascinol	Akt mTOR AMPK Androgen Receptor Apoptosis Autophagy	Cancer
Monascuspiloin (Monascinol) exhibits anti-androgenic activity with an IC₅₀ of 7 μM. Monascuspiloin inhibits viability of PC-3 and LNCaP with IC₅₀ of 45 and 47 μM. Monascuspiloin induces apoptosis in LNCaP through inhibition of *Akt/mTOR* signaling pathway, induces autophagy through activation AMPK signaling pathway and arrest cell cycle at G2/M phase in PC-3. Monascuspiloin exhibits antitumor efficacy in mice .

HY-N3000

6-Methoxydihydrosanguinarine	JNK IRE1 Akt mTOR YAP Reactive Oxygen Species (ROS) Autophagy Apoptosis Ferroptosis Fungal	Infection Inflammation/Immunology Cancer
6-Methoxydihydrosanguinarine is an alkaloid with activity across multiple cancer cell types. 6-Methoxydihydrosanguinarine activates IRE1/JNK signaling, blocks *Akt/mTOR* and *PI3K/AKT/mTOR* pathways, reduces expression of Cdc25C, CyclinB1, Cdc2, YAP/TAZ, Survivin, GPX4, and EGFR, upregulates IRE1 and DR5, and activates JNK and caspases. 6-Methoxydihydrosanguinarine induces apoptosis, G2/M phase arrest, DNA damage, ROS generation, lipid peroxidation, ferroptosis, autophagy, and suppresses cancer cell growth. 6-Methoxydihydrosanguinarine disruptes the biofilm formation of Candida albicans (C. albicans). 6-Methoxydihydrosanguinarine can be used for the research of non-small cell lung cancer, hepatocellular carcinoma, melanoma, colon carcinoma, ovarian cancer and breast cancer .

HY-121811

Pongamol Lanceolatin C	Glycosidase Phosphatase Interleukin Related TNF Receptor COX Beclin1 GLUT FAK Akt mTOR p38 MAPK Keap1-Nrf2 Apoptosis Amyloid-β Tau Protein Autophagy	Neurological Disease Inflammation/Immunology Cancer
Pongamol (Lanceolatin C) is an orally active flavonoid with an IC₅₀ of 75 μM and a K_i of 58 μM against PTPase-1B, and an IC₅₀ of 103.5 μM against intestinal α-Glycosidase. Pongamol reduces the release of IL‑1β, TNF‑α, COX‑2 and iNOS in cells, reverses the nuclear translocation of NF‑κB, and upregulates the levels of Beclin 1 and LC3 Ⅱ/LC3 Ⅰ. Pongamol promotes glucose uptake by increasing the level of GLUT4 on the surface of skeletal muscle cells. Pongamol inhibits epithelial-mesenchymal transition by suppressing the *FAK/Akt-mTOR* signaling pathway. Pongamol inhibits neuronal cytotoxicity, suppresses cell apoptosis and extends the lifespan of Caenorhabditis elegans by activating the MAPKs/Nrf2 signaling pathway. Pongamol exerts hypoglycemic effects in diabetic mouse models. Pongamol exhibits antibacterial activity. Pongamol alleviates oxidative stress, neuroinflammation, Aβ deposition and excessive phosphorylation of Tau Protein, and restores autophagy function in Alzheimer's disease mouse models by inhibiting the *Akt/mTOR* signaling pathway. Pongamol is applicable to research related to Alzheimer's disease, type 2 diabetes, non-small cell lung cancer and postprandial hyperglycemia .

HY-N6896

Isoviolanthin 1 Publications Verification	TGF-beta/Smad PI3K Akt mTOR MMP Histone Demethylase	Endocrinology Cancer
Isoviolanthin is a flavonoid glycoside. Isoviolanthin can be extracted from Dendrobium officinale. Isoviolanthin has a strong affinity for binding to KDM6B, CHAC2, ESCO2, and IPO4. Isoviolanthin decreases MMP-2 and MMP-9. Isoviolanthin inhibits TGF-β/Smad and *PI3K/Akt/mTOR* signaling pathways. Isoviolanthin increases Fhl3 expression. Isoviolanthin has cytoprotective effects. Isoviolanthin has anticancer activity against hepatocellular carcinoma .

HY-148877

AT-533	HSP HSV HIF/HIF Prolyl-Hydroxylase VEGFR NF-κB ERK Akt FAK	Infection Inflammation/Immunology Cancer
AT-533 is a potent Hsp90 and HSV inhibitor. AT-533 suppresses tumor growth and angiogenesis by blocking the HIF-1α/VEGF/VEGFR-2 signaling pathway. AT-533 also inhibits the activation of the downstream pathways, including *Akt/mTOR/p70S6K, Erk1/2* and FAK. AT-533 inhibits the tube formation, cell migration, and invasion of human umbilical vein endothelial cells (HUVECs) .

HY-137996

Dehydrovomifoliol	Akt mTOR	Metabolic Disease
Dehydrovomifoliol is a *AKT/mTOR* dual inhibitor. Dehydrovomifoliol reduces lipid accumulation and lipogenesis by inhibiting the AKT/mTOR signaling pathway. Dehydrovomifoliol is used in nonalcoholic fatty liver disease research (NAFLD) .

HY-162143

SKI-349	SphK Akt mTOR	Cancer
SKI-349 is a dual-targeted inhibitor of sphingosine kinase 1/2 (SPHK1/2) and microtubule assembly (MDA). SKI-349 has anticancer activity. SKI-349 can inhibit the vitality, invasion, and AKT/mTOR signaling pathway of liver cells .

HY-162382

KTC1101	PI3K Akt mTOR	Cancer
KTC1101 is an orally active pan-PI3K inhibitor. KTC1101 can inhibit the PI3K signaling pathway, reduce downstream *AKT* and *mTOR* phosphorylation, and reduces the expression of Ki67. The anti-tumor effect of KTC1101 has a dual mechanism of action: directly inhibiting tumor cell growth and dynamically enhancing immune response .

HY-N6932

Voacamine	Cannabinoid Receptor P-glycoprotein PI3K Akt mTOR Apoptosis Autophagy EGFR	Metabolic Disease Cancer
Voacamine is an indole alkaloid with cannabinoid 1 (CB1) antagonistic activity. Voacamine can inhibit nuclear translocation. Voacamine is effective in enhancing the effect of Doxorubicin (HY-15142A) as it interferes with the P-glycoprotein (P-gp) function. Voacamine promotes apoptosis-independent autophagic cell death in human osteosarcoma cells. Voacamine activates mitochondrial-associated apoptosis signaling pathway and inhibition of *PI3K/Akt/mTOR* signaling pathway to suppress breast cancer progression. Voacamine inhibits EGFR to exert oncogenic activity against colorectal cancer .

HY-157169

IBL-302 AMU302	Pim mTOR Akt PI3K	Cancer
IBL-302 (AMU302) is an orally available dual-signaling inhibitor of PIM and PI3K/AKT/mTOR with activity against breast cancer and neuroblastoma. IBL-302 demonstrated in vivo efficacy in a nude mouse xenograft model, inhibiting trastuzumab (HY-P9907) resistance challenges. IBL-302 also enhances the effects of common cytotoxic chemotherapy drugs cisplatin (HY-17394), doxorubicin (HY-15142A), and etoposide (HY-13629) .

HY-162141

MD102	Glutaminase Apoptosis	Cancer
MD102 is a potent TG2 inhibitor with an IC₅₀ value of 0.35 μM. MD102 stabilizes p53 by inhibiting TG2, inducing a decrease in p-AKT and p-mTOR downstream signaling, leading to tumor cell apoptosis .

HY-18366

RU-SKI 43	Hedgehog	Cancer
RU-SKI 43 is a potent and selective Hedgehog acyltransferase (Hhat) inhibitor with an IC₅₀ of 850 nM. RU-SKI 43 reduces Gli-1 activation through Smoothened-independent non-canonical signaling and decreases Akt and mTOR pathway activity. RU-SKI 43 has anti-cancer activity .

HY-N5136

25(R,S)-Ruscogenin	Apoptosis PI3K Akt mTOR	Cancer
Ruscogenin suppresses HCC metastasis by reducing the expression of MMP-2, MMP-9, uPA, VEGF and HIF-1α via regulating the *PI3K/Akt/mTOR* signaling pathway . And Ruscogenin alleviates LPS-induced pulmonary endothelial cell apoptosis by su

HY-10071A

Y-27632 hydrochloride hydrate 395+ Cited Publications	ROCK NF-κB Apoptosis Autophagy Akt mTOR NADPH Oxidase Reactive Oxygen Species (ROS) PAK Ras	Neurological Disease Inflammation/Immunology Cancer
Y-27632 hydrochloride hydrate is a ROCK inhibitor with K_i values of 220 nM and 300 nM for ROCK1 and ROCK2, respectively. Y-27632 hydrochloride hydrate exerts anti-inflammatory and immunomodulatory effects in systemic lupus erythematosus models by inhibiting the ROCK/NF-κB pathway. Y-27632 hydrochloride hydrate enhances autophagy by inhibiting the *AKT/mTOR* pathway, thereby inducing apoptosis apoptosis in oral squamous cell carcinoma. Y-27632 hydrochloride hydrate induces the formation of tunneling nanotubes in ARPE-19 cells and significantly enhances mitochondrial transfer through these channels. Y-27632 hydrochloride hydrate promotes neurite outgrowth in PC12 cells by activating the *Rac1/NOX1/ROS/AKT/PAK1* signaling cascade .

HY-125953

Ceramide (Egg) Ceramide (Egg, Chicken)	JNK p38 MAPK Phosphatase Akt Survivin CDK mTOR Apoptosis Autophagy Reactive Oxygen Species (ROS)	Neurological Disease Cancer
Ceramide (Egg) (Ceramide (Egg, Chicken)) is a ceramide from chicken. Ceramide (Egg) is a sphingomyelin signaling pathway second messenger. Ceramide (Egg) activates PP2A, JNK, p38 MAPK, CAPK, ceramide-activated protein phosphatase, Vav, PKCζ, and SAPK/JNK cascade. Ceramide (Egg) downregulates or inhibits *AKT, survivin, CDK2, mTOR, and FLIP. Ceramide (Egg) mediates apoptosis, autophagy, cell cycle arrest, mitochondrial dysfunction, redox state shifts, and ROS* generation. Ceramide (Egg) can be used for the research of cancer and neurological disease .

HY-119767

Jolkinolide A	VEGFR Apoptosis	Cancer
Jolkinolide A is a diterpenoid, can be extracted from the roots of Euphorbia fischeriana Steud. Jolkinolide A exhibits anti-tumor activity, by affecting on angiogenesis of tumor tissues. Jolkinolide A significantly inhibits the *Akt-STAT3-mTOR* signaling pathway and reduces the expression of VEGF in A549 cells .

HY-N2590R

Lupenone (Standard)	Reference Standards Parasite PI3K Akt mTOR NF-κB	Infection Inflammation/Immunology Cancer
Lupenone is an orally active lupine-type triterpenoid that can be isolated from Musa basjoo. Lupenone Lupenone plays a role through the PI3K/Akt/mTOR and NF-κB signaling pathways. Lupenone has anti-inflammatory, antiviral, antidiabetic and anticancer activities .

HY-171047

Autophagy inducer 7	Apoptosis Autophagy DNA/RNA Synthesis Akt mTOR	Cancer
Autophagy inducer 7 (Compound SSA) is an Autophagy and Apoptosis inducer. Autophagy inducer 7 activates autophagy by inhibiting *Akt/mTOR* signaling and the expression of downstream proteins. Autophagy inducer 7 suppresses DNA synthesis and causes a G0-G1 cell-cycle arrest. Autophagy inducer 7 inhibits tumor cell growth .

Cat. No.	Product Name

HY-L015

PI3K/Akt/mTOR Compound Library

1,049 compounds

The PI3K/Akt/mTOR pathway controls many cellular processes that are important for the formation and progression of cancer, including apoptosis, transcription, translation, metabolism, angiogenesis, and cell cycle progression. Every major node of this signaling network is activated in a wide range of human tumors. Mechanisms for the pathway activation include activation of receptor tyrosine kinases (RTKs) upstream of PI3K, mutation or amplification of PIK3CA encoding p110α catalytic subunit of PI3K, mutation or loss of PTEN tumor suppressor gene, and mutation or amplification of Akt1. Once the pathway is activated, signaling through Akt can stimulate a series of substrates including mTOR which is involved in protein synthesis. Thus, inhibition of this pathway is an attractive concept for cancer prevention and/or therapy. Currently some mTOR inhibitors are approved for several indications, and there are several novel PI3K/Akt/mTOR inhibitors in clinical trials.

MCE owns a unique collection of 1,049 compounds that can be used for PI3K/Akt/mTOR pathway research. PI3K/Akt/mTOR Compound Library also acts as a useful tool for anti-cancer drug discovery.

HY-L074

Anti-Breast Cancer Compound Library

3,181 compounds

Breast cancer is the most frequent cancer among women, impacting 2.1 million women each year, and also causes the greatest number of cancer-related deaths among women. Surgery is usually the first type of treatment for breast cancer, which is usually followed by chemotherapy or radiotherapy or, in some cases, hormone or targeted therapies, especially for metastatic breast cancer (MBC).

Breast cancer is a heterogeneous disease, which is categorized into 3 major subtypes based on the presence or absence of molecular markers for estrogen or progesterone receptors and human epidermal growth factor 2 (ERBB2; formerly HER2): hormone receptor positive/ERBB2 negative (70% of patients), ERBB2 positive (15%-20%), and triple-negative (tumors lacking all 3 standard molecular markers; 15%). Different intrinsic subtypes exhibit different tumor behavior with different prognoses, and may require specific targeted therapies to maximize treatment effectiveness. Otherwise, some signaling pathways also play important roles in the development of breast cancer, such as NF-κB Signaling Pathway, TGF-beta Signaling Pathway, PI3K/AKT/mTOR signaling pathway and Notch Signaling Pathway. These signaling pathways offer ideal targets for development of new targeted therapies for breast cancer.

MCE supplies a unique collection of 3,181 compounds with identified and potential anti-breast cancer activity. MCE Anti-Breast Cancer Compound Library is a useful tool for anti-breast cancer drugs screening.

HY-L249

Lactylation Compound Library

5,860 compounds

Protein lactylation, an emerging post-translational modification identified in recent years, plays a critical role in linking cellular metabolic reprogramming, epigenetic regulation, and signaling networks. Based on a systematic framework encompassing lactate metabolism, lactylation, and downstream signaling pathways, this compound library comprehensively targets multiple regulatory layers, including histone modification enzymes (such as p300 and HDACs), key glycolytic enzymes (such as PKM2, LDHA, and GAPDH), transcriptional regulators (such as STAT3, HMGB1, and p53), as well as central signaling pathway nodes including HIF-1α, NF-κB, and PI3K-AKT-mTOR. This integrated design enables a comprehensive representation of the regulatory roles of lactylation across the “metabolism–epigenetics–signaling” axis.

MCE has assembled a collection of 5,860 known bioactive compounds and potential functional molecules, making this library suitable for a wide range of applications, including high-throughput drug screening, inhibitor identification, and mechanistic studies. It can be used to systematically evaluate the functional roles of lactylation in biological processes such as tumor metabolism, immune regulation, and inflammatory responses, and to efficiently identify small-molecule candidates with regulatory potential, thereby facilitating the development of innovative therapeutics targeting the interplay between metabolism and epigenetic regulation.

HY-L101

Anti-Liver Cancer Compound Library

2,838 compounds

Liver cancer is one of the leading malignancies which occupies the second position in cancer deaths worldwide, becoming serious threat to human health. Hepatocellular carcinoma (HCC), also known as hepatoma is the most common type accounting for approximately 90% of all liver cancers.

Current evidence indicates that during hepatocarcinogenesis, two main pathogenic mechanisms prevail: (1) cirrhosis associated with hepatic regeneration after tissue damage caused by hepatitis infection, toxins or metabolic influences, and (2) mutations occurring in single or multiple oncogenes or tumor suppressor genes. Both mechanisms have been linked with alterations in several important cellular signaling pathways. These include the RAF/MEK/ERK pathway, PI3K/AKT/mTOR pathway, WNT/b-catenin pathway, insulin-like growth factor pathway, c-MET/HGFR pathway , etc.

MCE offers a unique collection of 2,838 compounds with identified and potential anti-liver cancer activity. MCE anti-liver cancer compound library is a useful tool for anti-liver cancer drugs screening and other related research.

Cat. No.	Product Name	Type

HY-15244G

Alpelisib

Fluorescent Dyes

Alpelisib GMP is Alpelisib (HY-15244) produced by using GMP guidelines. GMP small molecules works appropriately as an auxiliary reagent for cell therapy manufacture. Alpelisib (BYL-719) is an orally active PI3Kα-selective inhibitor that blocks the conversion of PIP2 to PIP3, thereby inhibiting pathways including PI3K/AKT/mTOR, MAPK/ERK, Notch and JAK-STAT. Alpelisib also induces apoptosis, G0/G1 phase arrest and senescence; it significantly inhibits the proliferation, self-renewal, stemness and epithelial-mesenchymal transition (EMT) of tumor cells, reduces cancer stem cell populations and decreases the expression of stem cell markers. Alpelisib not only enhances the sensitivity to Eribulin (HY-13442) and exerts a synergistic effect with Paclitaxel (HY-B0015), but may also induce drug resistance by upregulating the SGK3/GSK3β/β-catenin signaling pathway. Alpelisib can be applied to research related to breast cancer, gastric cancer and lipomas associated with PTEN hamartoma tumor syndrome .

Cat. No.	Product Name	Type

HY-W016412

Coenzyme Q0

2 Publications Verification

CoQ0

Biochemical Assay Reagents

Coenzyme Q0 (CoQ0) is a potent, oral active ubiquinone compound can be derived from Antrodia cinnamomea. Coenzyme Q0 induces apoptosis and autophagy, suppresses of HER-2/AKT/mTOR signaling to potentiate the apoptosis and autophagy mechanisms. Coenzyme Q0 regulates NFκB/AP-1 activation and enhances Nrf2 stabilization in attenuation of inflammation and redox imbalance. Coenzyme Q0 has anti-angiogenic activity through downregulation of MMP-9/NF-κB and upregulation of HO-1 signaling .

HY-15244G

Alpelisib

Biochemical Assay Reagents

Cat. No.	Product Name	Target	Research Area

HY-P1410B

D-GsMTx4 3 Publications Verification	Piezo Channel Calcium Channel mTOR PI3K Akt	Cardiovascular Disease Neurological Disease Inflammation/Immunology
D-GsMTx4 is a spider peptide and the D enantiomer of GsMTx4 (HY-P1410). D-GsMTx4 inhibits the mechanosensitive ion channel Piezo2. D-GsMTx4 inhibits [Ca ²⁺]_i elevation. D-GsMTx4 inhibits *mTOR* and *PI3K-Akt* signaling pathways. D-GsMTx4 inhibits mechanical allodynia and thermal hyperalgesia. D-GsMTx4 can be used in researches of mechanical stress, chronic pain and idiopathic pulmonary fibrosis .

HY-P1410C

D-GsMTx4 TFA 3 Publications Verification	Piezo Channel Calcium Channel mTOR PI3K Akt	Cardiovascular Disease Neurological Disease Inflammation/Immunology
D-GsMTx4 TFA is a spider peptide and the D enantiomer of GsMTx4 (HY-P1410). D-GsMTx4 TFA inhibits the mechanosensitive ion channel Piezo2. D-GsMTx4 TFA inhibits [Ca ²⁺]_i elevation. D-GsMTx4 TFA inhibits *mTOR* and *PI3K-Akt* signaling pathways. D-GsMTx4 TFA inhibits mechanical allodynia and thermal hyperalgesia. D-GsMTx4 TFA can be used in researches of mechanical stress, chronic pain and idiopathic pulmonary fibrosis .

HY-P10992

YVPGP	PI3K Akt mTOR Caspase Apoptosis Bcl-2 Family	Cancer
YVPGP is an oligopeptide exacted from Anthopleura anjunae. YVPGP has a significant antitumor activity by mediating *PI3K/AKT/mTOR* signaling pathway. YVPGP arrests DU-145 cells in the S phase and induces apoptosis via mitochondrial and death receptor pathways (caspase3, 7, 8, 9). YVPGP effectively inhibits tumor growth in DU-145 xenografts mice model, promising for prostate cancer research .

HY-P10833

C-VGB3	VEGFR PI3K Akt mTOR ERK Apoptosis	Cardiovascular Disease Cancer
C-VGB3 is a selective vascular endothelial growth factor receptor 2 (VEGFR2) antagonist, which inhibits VEGFR2-mediated PI3K/AKT/mTOR and PLCγ/ERK1/2 signaling pathways. C-VGB3 binds to the extracellular domain of VEGFR2, blocking ligand-receptor interaction and inducing apoptosis in endothelial and tumor cells through both intrinsic (involving Bcl2 family and caspases) and extrinsic (death receptor-mediated) pathways. C-VGB3 is promising for research of angiogenesis-related cancers, such as breast cancer .

Cat. No.	Product Name	Target	Research Area	Image

HY-P990248

Anti-Mouse E-Cadherin/CD324 Antibody (DECMA-1)	Cadherin EGFR PERK Akt mTOR	Neurological Disease Inflammation/Immunology Cancer
Anti-Mouse E-Cadherin/CD324 Antibody (DECMA-1) is an anti-mouse E-Cadherin/CD324 IgG1 monoclonal antibody. Anti-Mouse E-Cadherin/CD324 Antibody (DECMA-1) can downregulate the HER signaling axis and *PI3K/Akt/mTOR* signaling pathway. Anti-Mouse E-Cadherin/CD324 Antibody (DECMA-1) can inhibit the proliferation of tumor cells and induce their apoptosis. Anti-Mouse E-Cadherin/CD324 Antibody (DECMA-1) can be used for researches on cancer and inflammation conditions such as breast cancer, chronic compression injury (CCI) and asthma .

HY-P992201

Anti-CD160 Antibody (MAT 302) CL1-R2	MHC Apoptosis IFNAR TNF Receptor Interleukin Related Akt mTOR	Cardiovascular Disease Neurological Disease Cancer
Anti-CD160 Antibody (MAT 302) (CL1-R2) is a human monoclonal antibody targeting CD160. Anti-CD160 Antibody (MAT 302) blocks the CD160-HVEM protein interaction, inhibits FGF2-mediated renal tubular vascular growth, and induces endothelial cell apoptosis. Anti-CD160 Antibody (MAT 302) targets CD160 on neovascularization to exert anti-angiogenic and vascular normalization effects, trigger the production of IFN-γ, TNF and IL-6 by NK cells, and enhance glucose metabolism of NK cells through the *AKT/mTOR/s6k* signaling pathway. Anti-CD160 Antibody (MAT 302) reduces vascular density, normalizes remaining tumor blood vessels, and inhibits tumor growth in melanoma-bearing mice. Anti-CD160 Antibody (MAT 302) can be used in research related to neovascularization, proliferative diabetic retinopathy, and melanoma .

Cat. No.	Product Name	Category	Target	Chemical Structure

HY-N0047

Polyphyllin I 5 Publications Verification	Liliaceae Classification of Application Fields Paris polyphylla Smith Plants Disease Research Fields Saccharides Steroids Cancer	JNK mTOR Akt PDK-1 Autophagy Apoptosis
Polyphyllin I is a bioactive constituent extracted from Paris polyphylla, has strong anti-tumor activity. Polyphyllin I is an activator of the JNK signaling pathway and is an inhibitor of *PDK1/Akt/mTOR* signaling. Polyphyllin I induces autophagy, G2/M phase arrest and apoptosis .

HY-N0787

Cryptochlorogenic acid 4 Publications Verification 4-Caffeoylquinic acid; 4-O-Caffeoylquinic acid	Classification of Application Fields Simple Phenylpropanols Other Diseases Phenols Polyphenols Phenylpropanoids Plants Moraceae Endogenous metabolite Disease Research Fields Morus alba Linn. Source Classification	Endogenous Metabolite NF-κB Keap1-Nrf2 mTOR HIF/HIF Prolyl-Hydroxylase
Cryptochlorogenic acid (4-Caffeoylquinic acid) is a naturally occurring phenolic acid compound with oral effectiveness, anti-inflammatory, antioxidant and anti-cardiac hypertrophy effects. Alleviating LPS (HY-D1056) and ISO (HY-B0468) by regulating proinflammatory factor expression, inhibiting NF-κB activity, promoting Nrf2 nuclear transfer, and regulating PI3Kα/Akt/ *mTOR* / HIF-1α signaling pathway Induced physiological stress response .

HY-W021448

Glycocyamine 1 Publications Verification Guanidinoacetic acid	Structural Classification Other disease Classification of Application Fields Ketones, Aldehydes, Acids Disease markers Other Diseases Endogenous metabolite Disease Research Fields Source Classification	Endogenous Metabolite
Glycocyamine (Guanidinoacetic acid) is a direct precursor of creatine and an orally active energy metabolism regulator and myogenic differentiation inducer. Glycocyamine can activate the Akt/mTOR/S6K signaling pathway via miR-133a-3p and miR-1a-3p, and stimulate the mRNA expression of myogenic differentiation factor 1 (MyoD) and myopoietin (MyoG). Glycocyamine can increase muscle creatine concentration and maintain ATP homeostasis through the creatine phosphate/creatine kinase system. Glycocyamine can be used in research on feed additives for poultry farming .

HY-N0876

Arenobufagin 4 Publications Verification	Animals Classification of Application Fields Disease Research Fields Steroids Source Classification Cancer	Apoptosis Autophagy PI3K Akt mTOR PARP Caspase Atg8/LC3
Arenobufagin is a natural bufadienolide that can be extracted from toad venom. Arenobufagin can induce apoptosis and autophagy in human hepatocellular carcinoma cells through inhibition of *PI3K/Akt/mTOR* pathway. Arenobufagin has potent antineoplastic activity against HCC HepG2 cells as well as corresponding multidrug-resistant HepG2/ADM cells. Arenobufagin can inhibit VEGF-mediated angiogenesis through suppression of VEGFR-2 signaling pathway .

HY-N0559

Kirenol 1 Publications Verification	Structural Classification Terpenoids Bituminaria morisiana (Pignatti & Metlesics) Greuter Diterpenoids Plants Compositae Source Classification	Casein Kinase Apoptosis AMPK Akt NF-κB TGF-beta/Smad
Kirenol is a diterpenoid compound, an orally active apoptosis inducer and signaling pathway regulator, with a K_d value of 5.47 μM against the target CK2. Kirenol promotes the cleavage of Bid into tBid, regulates the protein levels/phosphorylation of Bax, Bcl-2, p53 and p21, and induces caspase-independent apoptosis, S-phase cell cycle arrest, ROS accumulation and cytotoxicity in cancer cells. Kirenol activates the *CK2/AKT* and *AMPK-mTOR-ULK1* pathways, inhibits the signaling of NF-κB, TGF-β/Smads and NLRP3 inflammasome, and regulates the GSK3β, BMP and Wnt/β-catenin pathways. Kirenol induces autophagy, mitophagy and osteoblast differentiation, promotes mitochondrial fusion, and exerts antioxidant, anti-inflammatory, antifibrotic, renoprotective, cardioprotective, neuroprotective and analgesic effects. Kirenol is applicable to research related to chronic myeloid leukemia, ischemic stroke, diabetic nephropathy, heart failure, acute lung injury and osteoporosis .

HY-N0837

Veratramine 1 Publications Verification NSC17821; NSC23880	Alkaloids Piperidine Alkaloids Structural Classification other families Classification of Application Fields Plants Disease Research Fields Source Classification Cancer	PI3K Akt mTOR Autophagy Apoptosis
Veratramine (NSC17821; NSC23880) is an orally active inhibitor of the *PI3K/Akt/mTOR* signaling pathway and a SIGMAR1 modulator. Veratramine induces autophagic apoptosis of tumor cells, arrests the cell cycle at the G0/G1 phase, and inhibits epithelial-mesenchymal transition (EMT)-related proteins to reduce tumor migration. Veratramine reduces spinal cord and sciatic nerve pathological damage in a neuropathy model by inhibiting SIGMAR1 binding to NMDAR and phosphorylation of NMDAR Ser896. Veratramine has anti-tumor proliferation, apoptosis induction, anti-inflammatory and neuroprotective activities, and can be used in the study of cancers such as liver cancer and osteosarcoma, as well as diabetic peripheral neuropathy .

HY-128483

Fusaric acid	Infection Microorganisms Classification of Application Fields Ketones, Aldehydes, Acids Disease Research Fields Source Classification	TGF-beta/Smad PI3K NF-κB Akt Apoptosis Dopamine β-hydroxylase mTOR Adrenergic Receptor
Fusaric acid is an orally active multi-pathway inhibitor with the activity of inducing oxidative stress and apoptosis. Fusaric acid can chelate divalent metal cations, damage mitochondrial membrane structure, and activate apoptosis-related proteases such as Caspase-3/7, -8, and -9. Fusaric acid also regulates Bax/Bcl-2 protein, inhibits fibrosis-related signaling pathways such as NF-κB, TGF-β₁/SMADs, and *PI3K/AKT/mTOR, and reduces collagen* deposition. Fusaric acid is also a dopamine β-hydroxylase inhibitor, which reduces endogenous levels of norepinephrine and epinephrine in the brain, heart, spleen, and adrenal glands. Fusaric acid can play a role in myocardial fibrosis and improve cardiac hypertrophy in heart disease, and can also be used in the study of esophageal cancer and liver cancer .

HY-N0279

Cardamonin Maximum Cited Publications 17 Publications Verification Cardamomin; Alpinetin chalcone	Chalcones Flavonoids Classification of Application Fields Phenols Polyphenols Boesenbergia rotunda Plants Disease Research Fields Source Classification Zingiberaceae Cancer	NF-κB STAT Wnt β-catenin Bcl-2 Family Apoptosis
Cardamonin can be found from cardamom, and can target various signaling molecules, transcriptional factors, cytokines and enzymes. Cardamonin can inhibit *mTOR, NF-κB, Akt, STAT3, Wnt/β-catenin* and COX-2. Cardamonin shows anticancer, anti-inflammatory, antimicrobial and antidiabetic activities .

HY-N6950

Hederacolchiside A1 1 Publications Verification	Infection Triterpenes other families Classification of Application Fields Terpenoids Plants Disease Research Fields Source Classification	PI3K Akt mTOR Parasite Apoptosis
Hederacolchiside A1, isolated from Pulsatilla chinensis, suppresses proliferation of tumor cells by inducing apoptosis through modulating *PI3K/Akt/mTOR* signaling pathway . Hederacolchiside A1 has antischistosomal activity, affecting parasite viability both in vivo and in vitro .

HY-N0735

Phellodendrine chloride 2 Publications Verification	Alkaloids Phellodendron amurense Rupr. Classification of Application Fields Rutaceae Phenols Polyphenols Plants Isoquinoline Alkaloids Disease Research Fields Source Classification Cancer	Autophagy Apoptosis AMPK mTOR STAT Interleukin Related PKC p38 MAPK NF-κB COX Reactive Oxygen Species (ROS) PI3K Akt MMP
Phellodendrine chloride is an orally active plant alkaloid. Phellodendrine chloride inhibits the proliferation of KRAS-mutated pancreatic cancer cells by suppressing macropinocytosis and glutamine metabolism, inducing ROS accumulation and mitochondrial apoptosis. Phellodendrine chloride promotes autophagy by activating the *AMPK/mTOR* pathway, alleviating intestinal damage in ulcerative colitis. Phellodendrine chloride can alleviate gouty arthritis by inhibiting the IL-6/STAT3 signaling pathway. Phellodendrine chloride suppresses allergic reactions by altering the conformation of MRGPRB3/MRGPRX2 protein, thereby inhibiting the activation of PKC and subsequent downstream MAPK and NF-κB signaling. Phellodendrine chloride inhibits the *AKT/NF-κB* pathway and down-regulates the expression of COX-2, thereby protecting zebrafish embryos from oxidative stress. Phellodendrine chloride has an anti-major depressive disorder (MDD) effect by down-regulating CHRM1, HTR1A, and the *PI3K/Akt* signaling pathway .

HY-N0712

Typhaneoside 3 Publications Verification	Cardiovascular Disease Flavonols Structural Classification Flavonoids Typhaceae Classification of Application Fields Typha angustifolia L. Phenols Polyphenols Plants Disease Research Fields Source Classification	Autophagy mTOR Akt FXR
Typhaneoside is an orally bioavailable signal modulator and cellular regulator. Typhaneoside regulates the PI3K/Akt/mTOR autophagy transduction pathway. Typhaneoside promotes the activation of AMP-activated protein kinase and Caspase-3, induces apoptosis, ferroptosis, autophagy, ROS accumulation, and cell cycle arrest at the G₂/M phase, and reduces cancer cell viability. Typhaneoside activates the farnesoid X receptor signaling pathway, improves glucose and lipid metabolism, alleviates inflammatory responses, oxidative stress and hepatic lipid accumulation, and exerts hepatoprotective effects. Typhaneoside is applicable to research related to post-myocardial infarction heart failure, acute myeloid leukemia, non-alcoholic fatty liver disease, and neurological disorders .

HY-N0493

Pectolinarigenin 2 Publications Verification	Structural Classification Flavonoids Classification of Application Fields Flavones Campylotropis hirtella (Franch.) Schindl. Phenols Polyphenols Plants Compositae Inflammation/Immunology Disease Research Fields Source Classification	COX Lipoxygenase NF-κB p38 MAPK ERK HIF/HIF Prolyl-Hydroxylase Keap1-Nrf2 PI3K Apoptosis Autophagy
Pectolinarigenin is an orally active dual inhibitor of COX-2/5-LOX with anti-inflammatory, antioxidant, antitumor and neuroprotective activities. Pectolinarigenin exerts neuroprotective and anti-inflammatory effects on astrocyte inflammation via the NFκB and MAPK pathways. Pectolinarigenin inhibits LPS-induced phosphorylation of ERK1/2, N-FκB and p38MAPK, directly inhibits the enzymatic activity or binding of COX-2, 5-LOX and HIF-1α, and reduces the level of XIAP. Pectolinarigenin modifies Keap1 to promote nuclear accumulation of Nrf2, induces ARE-mediated antioxidant enzyme expression, and possesses direct free radical scavenging activity. Pectolinarigenin reduces the release of NO, proinflammatory mediators and leukotrienes, and increases the level of IL-10. Pectolinarigenin induces G₂/M cell cycle arrest, apoptosis (Apoptosis) and autophagy (Autophagy) via the *PI3K/AKT/mTOR* signaling pathway. Pectolinarigenin reduces renal crystal deposition and inhibits melanin synthesis. Pectolinarigenin inhibits inflammation and alleviates allergy in mouse models of inflammation. Pectolinarigenin alleviates renal injury, inflammation and oxidative stress in mice by inhibiting HIF-1α activity. Pectolinarigenin can be used for the research of neurodegenerative diseases, inflammatory/allergic diseases, calcium oxalate nephrocalcinosis, gastric cancer, melasma, post-inflammatory diseases and chloasma .

HY-N0819

Raddeanin A 1 Publications Verification	Triterpenes Structural Classification other families Classification of Application Fields Terpenoids Plants Disease Research Fields Source Classification Cancer	Apoptosis PI3K Akt ERK mTOR Wnt β-catenin Wee1 JNK VEGFR CDK
Raddeanin A is an oleanane-type triterpenoid saponin with oral activity. Raddeanin A inhibits SRC, *mTOR, JNK, VEGFR2, NLRP3* inflammasome, Wnt/β-catenin, Wee1, *PI3K/AKT* signaling pathway, MAPK/ERK signaling pathway, AR-FL, AR-Vs, and downregulates the expression of p-PI3K and p-AKT. Raddeanin A inhibits osteoclast formation, bone resorption, osteolysis, cancer cell invasion, migration, proliferation, angiogenesis and epithelial-mesenchymal transition, while induces apoptosis, cell cycle arrest, ROS production, immunogenic cell death and dendritic cell maturation. Raddeanin A improves blood-retinal barrier function, alleviates inflammation, regulates the tumor microenvironment, and enhances the activity of anti-PD-1 antibody. Raddeanin A is applicable to the research of breast cancer-associated osteolysis, human osteosarcoma, colorectal cancer, glioblastoma, Alzheimer's disease, cholangiocarcinoma, melanoma, non-small cell lung cancer, castration-resistant prostate cancer and multiple myeloma .

HY-N2590

Lupenone	Triterpenes Classification of Application Fields Musaceae Plants Compositae Infection Terpenoids Astragalus oleifolius DC. Musa basjoo Sieb. et Zucc. Inflammation/Immunology Disease Research Fields Source Classification Cancer	Parasite PI3K Akt mTOR NF-κB
Lupenone is an orally active lupine-type triterpenoid that can be isolated from Musa basjoo. Lupenone Lupenone plays a role through the *PI3K/Akt/mTOR* and NF-κB signaling pathways. Lupenone has anti-inflammatory, antiviral, antidiabetic and anticancer activities .

HY-N1255

Scoulerine (-)-Scoulerine; Discretamine	Alkaloids Structural Classification other families Classification of Application Fields Phenols Polyphenols Plants Isoquinoline Alkaloids Disease Research Fields Source Classification Cancer	Bcl-2 Family Apoptosis mTOR GABA Receptor PI3K Adrenergic Receptor Beta-secretase Akt
Scoulerine ((-)-Scoulerine; Discretamine) hydrochloride is a multi-target inhibitor with anti-tumor and antioxidant activities. Scoulerine mainly targets the *PI3K/Akt/mTOR* signaling axis and α1D-adrenergic receptor, disrupts microtubule structure, and induces cell cycle arrest and apoptosis. Scoulerine effectively inhibits mitochondrial dehydrogenase activity, targets GABA receptors and BACE1, and suppresses the proliferation, migration, invasion, epithelial-mesenchymal transition and stem cell properties of cancer cells. Scoulerine also exhibits multiple pharmacological activities including anti-Plasmodium falciparum, antibacterial, antiemetic and antitussive effects, and regulates endoplasmic reticulum stress and mitochondrial function (modulates Bax, Bcl-2 and cytochrome c). Scoulerine is applicable to research related to leukemia, ovarian cancer, and colorectal cancer .

HY-N0616

Trifolirhizin	Structural Classification Flavonoids Classification of Application Fields Leguminosae Trifolium pratense Linn. Sophora flavescens Aiton Plants Other Flavonoids Inflammation/Immunology Disease Research Fields Source Classification Cancer	Tyrosinase TNF Receptor Bacterial Apoptosis Autophagy AMPK mTOR ERK NF-κB
Trifolirhizin is a pterocarpan flavonoid found in the roots of Sophora flavescens. Trifolirhizin is a tyrosinase inhibitor with an IC₅₀ value of 506.77 μM. Trifolirhizin reduces intracellular melanin production and modulates multiple signaling pathways including NFκB-MAPK, AMPK/mTOR, PI3K/Akt, MAPK-NFATc1 and EGFR-MAPK. Trifolirhizin targets biological molecules including PTK6 and COX-2, inhibits the activities of hyaluronidase, collagenase and elastase, induces apoptosis, autophagy and cell cycle arrest, and suppresses the proliferation, migration and invasion of cancer cells. Trifolirhizin exerts diverse pharmacological effects including anti-inflammatory, anti-asthmatic, bone-protective, renoprotective, antibacterial, antifungal, hepatoprotective, antiplatelet, estrogenic and wound-healing activities. Trifolirhizin can be used to investigate a broad range of malignant, inflammatory, metabolic and infectious disorders .

HY-N6983

Licoricesaponin G2	Other Terpenoids Structural Classification Classification of Application Fields Leguminosae Terpenoids Plants Glycyrrhiza uralensis Fisch. Disease Research Fields Source Classification Cancer	TNF Receptor PI3K Akt mTOR Reactive Oxygen Species (ROS)
Licoricesaponin G2 is an orally active component found in Licorice. Licoricesaponin G2 significantly ameliorates Bleomycin (HY-108345)-induced pulmonary fibrosis by inhibiting the TNF-α signaling pathway, reducing epithelial-mesenchymal transition, and decreasing extracellular matrix deposition. Licoricesaponin G2 inhibits cancer cells proliferation, migration, inhibits *PI3K/AKT/mTOR* signaling pathway and increases ROS production. Licoricesaponin G2 can be used for the research of lung cancer and pulmonary fibrosis .

HY-N3651

Curzerenone 1 Publications Verification	Infection Structural Classification Classification of Application Fields Terpenoids Sesquiterpenes Curcuma phaeocaulis Valeton Plants Disease Research Fields Source Classification Zingiberaceae	Bacterial Reactive Oxygen Species (ROS) Apoptosis PI3K Akt mTOR
Curzerenone is an orally active sesquiterpene compound and Antibacterial agent. Curzerenone can be isolated from Curcuma zedoaria and Curcuma aeruginosa plants. Curzerenone increases ROS levels, activates Apoptotic signaling pathways, and attenuates the *PI3K/AKT/mTOR* signaling pathway. Curzerenone exhibits anticancer activity against liver cancer and cervical cancer. Curzerenone has antioxidant effects. Curzerenone shows weak antibacterial activity against Escherichia coli. Curzerenone can be used in research related to hepatocellular carcinoma, cervical cancer, and Escherichia coli infection .

HY-N2447

Amarogentin 2 Publications Verification	Gentiana scabra Bunge Iridoids Classification of Application Fields Terpenoids Gentianaceae Phenols Polyphenols Metabolic Disease Plants Disease Research Fields Source Classification	AMPK Apoptosis
Amarogentin is a secoiridoid glycoside that is mainly extracted from Swertia and Gentiana roots. Amarogentin exhibits many biological effects, including anti-oxidative, anti-tumour, and anti-diabetic activities. Amarogentin exerts hepatoprotective and immunomodulatory effects. Amarogentin promotes apoptosis, arrests G2/M cell cycle and downregulates of PI3K/Akt/mTOR signalling pathways. Amarogentin exerts beneficial vasculo-metabolic effect by activating AMPK .

HY-46866

Isoegomaketone	Structural Classification Natural Products Labiatae Ulex europaeus L. Plants Source Classification	Apoptosis Caspase PARP
Isoegomaketone is an orally active apoptosis inducer and radiosensitizer. Isoegomaketone regulates multiple key signaling pathways such as *PI3K/AKT/mTOR, NF-κB, MAPK, cleaves Caspase* family proteins and PARP, and modulates Bax, AIF and endoplasmic reticulum stress proteins. Isoegomaketone also induces autophagy and keratinocyte proliferation, effectively reduces the levels of inflammatory factors and oxidative stress, inhibits adipocyte differentiation, and resensitizes TRAIL-resistant cancer cells. Isoegomaketone can be applied to research related to colorectal cancer, melanoma, lung cancer, prostate cancer, liver cancer, as well as rheumatoid arthritis and obesity .

HY-N2445

Flavokawain C 4 Publications Verification	Structural Classification Classification of Application Fields Piperaceae Plants Chalcones Flavonoids other families Phenols Polyphenols Piper methysticum G.Forst. Disease Research Fields Source Classification Cancer	Apoptosis Akt JNK PERK Caspase PARP MDM-2/p53 IAP Reactive Oxygen Species (ROS) SOD FABP Autophagy AMPK mTOR GLUT EGFR PI3K HSP VEGFR FAK
Flavokawain C is an orally active natural chalcone. Flavokawain C inhibits the proliferation of various cancer cells. Flavokawain C upregulates GADD153 in cancer cells, inhibits the phosphorylation of *Akt* and JNK, suppresses early ERK phosphorylation, activates late ERK phosphorylation, activates caspase related subtypes, induces PARP-1 cleavage, causes upregulation of p21 and p27, downregulation of mutant p53 and anti-apoptotic IAP proteins, elevates intracellular ROS levels, reduces SOD activity, and induces apoptosis. Flavokawain C downregulates FABP4, induces autophagy in cancer cells, and activates the *AMPK/mTOR* pathway . Flavokawain C decreases the expression of glycolysis-related proteins GLUT1 and HK2, and inhibits glycolysis in nasopharyngeal carcinoma cells. Flavokawain C inhibits the activation of the *EGFR/PI3K/Akt/mTOR* signaling pathway and reduces the expression of HSP90B1. Flavokawain C inhibits angiogenesis by decreasing the expression of angiogenic proteins Ang-1 and VEGF in human umbilical vein endothelial cells. Flavokawain C increases γ-H2AX levels in cells, inhibits the phosphorylation of FAK, PI3K and *AKT* in cells, and induces DNA damage in cells. Flavokawain C exerts anti-tumor activity in multiple tumor xenograft mouse models. Flavokawain C is applicable to research related to colorectal cancer, colon adenocarcinoma, nephroblastoma, nasopharyngeal carcinoma and liver cancer .

HY-N0427

Phellodendrine	Alkaloids Phellodendron amurense Rupr. Classification of Application Fields Rutaceae Phenols Polyphenols Quinoline Alkaloids Plants Inflammation/Immunology Disease Research Fields Source Classification	Akt NF-κB AMPK mTOR PKC STAT Interleukin Related p38 MAPK COX Reactive Oxygen Species (ROS) Apoptosis Autophagy PI3K MMP
Phellodendrine is an orally active plant alkaloid. Phellodendrine inhibits the proliferation of KRAS-mutated pancreatic cancer cells by suppressing macropinocytosis and glutamine metabolism, inducing ROS accumulation and mitochondrial apoptosis. Phellodendrine promotes autophagy by activating the *AMPK/mTOR* pathway, alleviating intestinal damage in ulcerative colitis. Phellodendrine can alleviate gouty arthritis by inhibiting the IL-6/STAT3 signaling pathway. Phellodendrine suppresses allergic reactions by altering the conformation of MRGPRB3/MRGPRX2 protein, thereby inhibiting the activation of PKC and subsequent downstream MAPK and NF-κB signaling. Phellodendrine inhibits the *AKT/NF-κB* pathway and down-regulates the expression of COX-2, thereby protecting zebrafish embryos from oxidative stress. Phellodendrine has an anti-major depressive disorder (MDD) effect by down-regulating CHRM1, HTR1A, and the *PI3K/Akt* signaling pathway .

HY-N1745A

3-Deoxysappanchalcone 2 Publications Verification	Structural Classification Chalcones Flavonoids Classification of Application Fields Leguminosae Caesalpinia sappan L. Phenols Polyphenols Plants Inflammation/Immunology Disease Research Fields Source Classification	Influenza Virus
3-Deoxysappanchalcone is a kinase inhibitor and antiviral agent. 3-Deoxysappanchalcone directly targets MET, EGFR, *AKT, mTOR, p38 MAPK, JNK, thrombin, FXa, and influenza virus neuraminidase, thereby regulating related signaling* pathways. 3-Deoxysappanchalcone induces cell cycle arrest, ROS production, and apoptosis. 3-Deoxysappanchalcone exhibits anti-inflammatory, anti-allergic, anticoagulant, and antithrombotic activities. 3-Deoxysappanchalcone is applicable to research related to gefitinib-resistant lung cancer, esophageal squamous cell carcinoma, thrombosis, and influenza virus infection .

HY-N2000

Bellidifolin 1 Publications Verification	Infection Structural Classification Xanthones Classification of Application Fields Swertia bimaculata (Sieb. et Zucc.) Hook. f. et Thoms. ex C. B. Clark Gentianaceae Phenols Polyphenols Plants Inflammation/Immunology Disease Research Fields Source Classification	STAT PI3K mTOR Akt
Bellidifolin is an orally active compound with antiproliferative, anti-inflammatory and antioxidant properties. Bellidifolin modulates key signaling pathways including STAT3, PI3K-Akt, mTOR and BRD4, and inhibits the viral protein R (Vpr). Bellidifolin induces cell cycle arrest and apoptosis, exerts significant antifibrotic effects, and protects the heart, liver and nervous system. Bellidifolin is applicable to the research of various diseases such as lung cancer, non-alcoholic fatty liver disease, myocardial hypertrophy and ischemic cranial nerve injury .

HY-N0910

Notoginsenoside Ft1 1 Publications Verification	Triterpenes Structural Classification Panax notoginseng (Burkill) F. H. Chen ex C. H. Chow Classification of Application Fields Terpenoids Other Diseases Plants Disease Research Fields Araliaceae Source Classification	PI3K mTOR Akt Apoptosis p38 MAPK ERK Transmembrane Glycoprotein Glutathione Reductase (GR) Estrogen Receptor/ERR Calcium Channel Ferroptosis G protein-coupled Bile Acid Receptor 1 FXR
Notoginsenoside Ft1 is an orally active bioactive saponin. Notoginsenoside Ft1 inhibits the *PI3K/AKT/mTOR* signaling pathway, activates the p38 MAPK and ERK1/2 signaling pathways, and increases the proportion of CD8 ⁺ T cells, thereby inducing apoptosis and lysosomal cell death in various cancer cells, and promoting angiogenesis. Notoginsenoside Ft1 causes vasodilation by activating glucocorticoid receptors (GR) and estrogen receptor beta (ERβ) in endothelial cells. Notoginsenoside Ft1 increases intracellular Ca ²⁺ accumulation, reduces cAMP levels by activating a signaling network mediated through P2Y₁₂ receptors, and promotes platelet aggregation, thereby exerting a procoagulant effect. Notoginsenoside Ft1 inhibits ferroptosis (ferroptosis) in renal tubular epithelial cells by activating the TGR5 receptor, thereby demonstrating a renal protective effect. Notoginsenoside Ft1 acts as a TGR5 agonist and an FXR antagonist to combat obesity and insulin resistance .

HY-N12124

Monascuspiloin Monascinol	Ketones, Aldehydes, Acids Endogenous metabolite Source Classification	Akt mTOR AMPK Androgen Receptor Apoptosis Autophagy
Monascuspiloin (Monascinol) exhibits anti-androgenic activity with an IC₅₀ of 7 μM. Monascuspiloin inhibits viability of PC-3 and LNCaP with IC₅₀ of 45 and 47 μM. Monascuspiloin induces apoptosis in LNCaP through inhibition of *Akt/mTOR* signaling pathway, induces autophagy through activation AMPK signaling pathway and arrest cell cycle at G2/M phase in PC-3. Monascuspiloin exhibits antitumor efficacy in mice .

HY-N3000

6-Methoxydihydrosanguinarine	Alkaloids Structural Classification Classification of Application Fields Quinoline Alkaloids Macleaya cordata (Willd.) R. Br. Plants Disease Research Fields Papaveraceae Source Classification Cancer	JNK IRE1 Akt mTOR YAP Reactive Oxygen Species (ROS) Autophagy Apoptosis Ferroptosis Fungal
6-Methoxydihydrosanguinarine is an alkaloid with activity across multiple cancer cell types. 6-Methoxydihydrosanguinarine activates IRE1/JNK signaling, blocks *Akt/mTOR* and *PI3K/AKT/mTOR* pathways, reduces expression of Cdc25C, CyclinB1, Cdc2, YAP/TAZ, Survivin, GPX4, and EGFR, upregulates IRE1 and DR5, and activates JNK and caspases. 6-Methoxydihydrosanguinarine induces apoptosis, G2/M phase arrest, DNA damage, ROS generation, lipid peroxidation, ferroptosis, autophagy, and suppresses cancer cell growth. 6-Methoxydihydrosanguinarine disruptes the biofilm formation of Candida albicans (C. albicans). 6-Methoxydihydrosanguinarine can be used for the research of non-small cell lung cancer, hepatocellular carcinoma, melanoma, colon carcinoma, ovarian cancer and breast cancer .

HY-121811

Pongamol Lanceolatin C	Structural Classification Pongamia pinnata (L.) Pierre Leguminosae Ketones, Aldehydes, Acids Derris trifoliata Lour. Plants Source Classification	Glycosidase Phosphatase Interleukin Related TNF Receptor COX Beclin1 GLUT FAK Akt mTOR p38 MAPK Keap1-Nrf2 Apoptosis Amyloid-β Tau Protein Autophagy
Pongamol (Lanceolatin C) is an orally active flavonoid with an IC₅₀ of 75 μM and a K_i of 58 μM against PTPase-1B, and an IC₅₀ of 103.5 μM against intestinal α-Glycosidase. Pongamol reduces the release of IL‑1β, TNF‑α, COX‑2 and iNOS in cells, reverses the nuclear translocation of NF‑κB, and upregulates the levels of Beclin 1 and LC3 Ⅱ/LC3 Ⅰ. Pongamol promotes glucose uptake by increasing the level of GLUT4 on the surface of skeletal muscle cells. Pongamol inhibits epithelial-mesenchymal transition by suppressing the *FAK/Akt-mTOR* signaling pathway. Pongamol inhibits neuronal cytotoxicity, suppresses cell apoptosis and extends the lifespan of Caenorhabditis elegans by activating the MAPKs/Nrf2 signaling pathway. Pongamol exerts hypoglycemic effects in diabetic mouse models. Pongamol exhibits antibacterial activity. Pongamol alleviates oxidative stress, neuroinflammation, Aβ deposition and excessive phosphorylation of Tau Protein, and restores autophagy function in Alzheimer's disease mouse models by inhibiting the *Akt/mTOR* signaling pathway. Pongamol is applicable to research related to Alzheimer's disease, type 2 diabetes, non-small cell lung cancer and postprandial hyperglycemia .

HY-N6896

Isoviolanthin 1 Publications Verification	Flavonoids other families Classification of Application Fields Flavones Phenols Polyphenols Plants Disease Research Fields Source Classification Cancer	TGF-beta/Smad PI3K Akt mTOR MMP Histone Demethylase
Isoviolanthin is a flavonoid glycoside. Isoviolanthin can be extracted from Dendrobium officinale. Isoviolanthin has a strong affinity for binding to KDM6B, CHAC2, ESCO2, and IPO4. Isoviolanthin decreases MMP-2 and MMP-9. Isoviolanthin inhibits TGF-β/Smad and *PI3K/Akt/mTOR* signaling pathways. Isoviolanthin increases Fhl3 expression. Isoviolanthin has cytoprotective effects. Isoviolanthin has anticancer activity against hepatocellular carcinoma .

HY-N0853A

Alisol A 24-acetate 1 Publications Verification Alisol A 24-monoacetate; Alisol A monoacetate	Triterpenes Structural Classification Alisma plantago-aquatica Linn. Classification of Application Fields Terpenoids Other Diseases Alismataceae Plants Disease Research Fields Source Classification	AMPK Carnitine Palmitoyltransferase (CPT) Acyltransferase Fatty Acid Synthase (FASN) Acetyl-CoA Carboxylase Bcl-2 Family PPAR Nuclear Factor of activated T Cells (NFAT) PI3K Akt PKA ERK Apoptosis Autophagy
Alisol A 24-acetate (Alisol A monoacetate) is an orally active derivative of protostane-type tetracyclic triterpenoid. Alisol A 24-acetate upregulates the expression of adiponectin, AMPKα, CPT1, and ACOX1; downregulates the expression of SREBP-1c, ACC, FAS, Bcl-2, Bcl-xl, PPAR-γ, perilipin A, and NFATc1; inhibits the activity of *PI3K/Akt/mTOR* and HMGR; and activates the PKA and ERK signaling pathways. Alisol A 24-acetate regulates cell apoptosis (apoptosis), autophagy (Autophagy, hepatic lipid accumulation, inflammatory response, neuroprotection, MRSA membrane integrity, and osteoclast differentiation. Alisol A 24-acetate can be used in research related to non-alcoholic fatty liver disease, nephrotoxicity, obesity, global cerebral ischemia-reperfusion injury, bacterial infection, and osteoporosis .

HY-137996

Dehydrovomifoliol	Artemisia frigida Willd. Terpenoids Sesquiterpenes Plants Compositae Source Classification	Akt mTOR
Dehydrovomifoliol is a *AKT/mTOR* dual inhibitor. Dehydrovomifoliol reduces lipid accumulation and lipogenesis by inhibiting the AKT/mTOR signaling pathway. Dehydrovomifoliol is used in nonalcoholic fatty liver disease research (NAFLD) .

HY-N6932

Voacamine	Alkaloids other families Classification of Application Fields Metabolic Disease Plants Disease Research Fields Indole Alkaloids Source Classification	Cannabinoid Receptor P-glycoprotein PI3K Akt mTOR Apoptosis Autophagy EGFR
Voacamine is an indole alkaloid with cannabinoid 1 (CB1) antagonistic activity. Voacamine can inhibit nuclear translocation. Voacamine is effective in enhancing the effect of Doxorubicin (HY-15142A) as it interferes with the P-glycoprotein (P-gp) function. Voacamine promotes apoptosis-independent autophagic cell death in human osteosarcoma cells. Voacamine activates mitochondrial-associated apoptosis signaling pathway and inhibition of *PI3K/Akt/mTOR* signaling pathway to suppress breast cancer progression. Voacamine inhibits EGFR to exert oncogenic activity against colorectal cancer .

HY-N6651

Isocryptotanshinone	Quinones Structural Classification Classification of Application Fields Labiatae Samanea saman (Jacq.) Merr. Plants Naphthalene Quinones Disease Research Fields Source Classification Cancer	STAT Phosphatase Apoptosis Autophagy p38 MAPK EGFR JAK Bcl-2 Family Survivin Akt mTOR PARP Caspase Atg8/LC3 CDK
Isocryptotanshinone is a dual STAT3 and PTP1B (IC₅₀ = 56.1 μM) inhibitor. Isocryptotanshinone inhibits STAT3 by binding to the STAT3 SH2 domain to block phosphorylation and nuclear translocation ^[1][2]. Isocryptotanshinone exerts its anti-proliferative effect via the induction of cell cycle arrest, apoptosis, and pro-death autophagy, through the regulation of STAT3, *AKT/mTOR* and MAPK signaling pathways. Isocryptotanshinone suppresses the xenograft gastric cancer (GC) tumor growth in BALB/c nude mice. Isocryptotanshinone can be used for cancer research, such as lung cancer, breast cancer and GC .

HY-N5136

25(R,S)-Ruscogenin	Liliaceae Microorganisms Classification of Application Fields Liriope platyphylla Wang et Tang Plants Disease Research Fields Steroids Cancer Source Classification	Apoptosis PI3K Akt mTOR
Ruscogenin suppresses HCC metastasis by reducing the expression of MMP-2, MMP-9, uPA, VEGF and HIF-1α via regulating the *PI3K/Akt/mTOR* signaling pathway . And Ruscogenin alleviates LPS-induced pulmonary endothelial cell apoptosis by su

HY-N6926

1,3,5-Tricaffeoylquinic acid	Infection Structural Classification other families Classification of Application Fields Ketones, Aldehydes, Acids Phenols Polyphenols Plants Disease Research Fields Source Classification	HIV Apoptosis Caspase VEGFR ERK PI3K Akt mTOR PARP
1,3,5-Tricaffeoylquinic acid acts as an angiogenesis inhibitor and apoptosis inducer, and exhibits anti-HIV activity. 1,3,5-Tricaffeoylquinic acid inhibits the phosphorylation of VEGFR2, ERK, PI3K, Akt and *mTOR* in the angiogenesis signaling pathway. 1,3,5-Tricaffeoylquinic acid regulates apoptosis-related proteins, upregulates the levels of activated caspase-8, Bax, activated PARP and caspase-3/9, while downregulates the level of Bcl-2. 1,3,5-Tricaffeoylquinic acid inhibits tube formation and shows cytotoxicity against ovarian cancer cells. 1,3,5-Tricaffeoylquinic acid can be used in studies related to ovarian cancer .

HY-N0837R

Veratramine (Standard) NSC17821 (Standard); NSC23880 (Standard)	Alkaloids Piperidine Alkaloids Structural Classification other families Plants Source Classification	Reference Standards PI3K Akt mTOR Autophagy Apoptosis
Veratramine (NSC17821; NSC23880) (Standard) is the analytical standard of Veratramine (HY-N0837). This product is intended for research and analytical applications. Veratramine (NSC17821; NSC23880) is an orally active inhibitor of the *PI3K/Akt/mTOR* signaling pathway and a SIGMAR1 modulator. Veratramine induces autophagic apoptosis of tumor cells, arrests the cell cycle at the G0/G1 phase, and inhibits epithelial-mesenchymal transition (EMT)-related proteins to reduce tumor migration. Veratramine reduces spinal cord and sciatic nerve pathological damage in a neuropathy model by inhibiting SIGMAR1 binding to NMDAR and phosphorylation of NMDAR Ser896. Veratramine has anti-tumor proliferation, apoptosis induction, anti-inflammatory and neuroprotective activities, and can be used in the study of cancers such as liver cancer and osteosarcoma, as well as diabetic peripheral neuropathy .

HY-119767

Jolkinolide A	Euphorbia fischeriana Steud. Terpenoids Diterpenoids Euphorbiaceae Plants Source Classification	VEGFR Apoptosis
Jolkinolide A is a diterpenoid, can be extracted from the roots of Euphorbia fischeriana Steud. Jolkinolide A exhibits anti-tumor activity, by affecting on angiogenesis of tumor tissues. Jolkinolide A significantly inhibits the *Akt-STAT3-mTOR* signaling pathway and reduces the expression of VEGF in A549 cells .

HY-N2590R

Lupenone (Standard)	Triterpenes Structural Classification Terpenoids Astragalus oleifolius DC. Musaceae Plants Compositae Musa basjoo Sieb. et Zucc. Source Classification	Reference Standards Parasite PI3K Akt mTOR NF-κB
Lupenone is an orally active lupine-type triterpenoid that can be isolated from Musa basjoo. Lupenone Lupenone plays a role through the PI3K/Akt/mTOR and NF-κB signaling pathways. Lupenone has anti-inflammatory, antiviral, antidiabetic and anticancer activities .

HY-125927

8-Aminoadenosine 1 Publications Verification 8-NH2-Ado	Natural Products Endogenous metabolite Source Classification	DNA/RNA Synthesis Akt mTOR Autophagy Apoptosis
8-Aminoadenosine (8-NH2-Ado), a RNA-directed nucleoside analogue, reduces cellular ATP levels and inhibits mRNA synthesis. 8-Aminoadenosine blocks *Akt/mTOR* signaling and induces autophagy and apoptosis in a p53-independent manner. 8-Aminoadenosine has antitumor activity .

HY-N10133

Licoflavanone 3′-Prenylnaringenin	Structural Classification Glycyrrhiza glabra Linn. Flavonoids Leguminosae Flavonones Plants Source Classification	Bacterial mTOR Akt PI3K NF-κB Caspase JNK ERK COX NO Synthase Apoptosis
Licoflavanone (3′-Prenylnaringenin) is a flavanone with antioxidant, anti-inflammatory and anticancer activities. Licoflavanone can be isolated from the leaf extract of Glycyrrhiza glabra. Licoflavanone downregulates the *mTOR/PI3K/AKT* signaling pathway to inhibit the proliferation, migration and invasion of cancer cells, while activates Bax, Bad and multiple caspase enzymes to induce apoptosis. Its anti-inflammatory effect is manifested by reducing the nuclear translocation of NF-κB, decreasing the phosphorylation levels of p38, JNK and ERK1/2, thereby inhibiting the expression of nitric oxide, proinflammatory cytokines, COX-2 and iNOS. Licoflavanone is used in studies on nasopharyngeal carcinoma and related mechanisms .

HY-N6950R

Hederacolchiside A1 (Standard)	Triterpenes Structural Classification other families Terpenoids Plants Source Classification	Reference Standards PI3K Akt mTOR Parasite Apoptosis
Hederacolchiside A1 (Standard) is the analytical standard of Hederacolchiside A1. This product is intended for research and analytical applications. Hederacolchiside A1, isolated from Pulsatilla chinensis, suppresses proliferation of tumor cells by inducing apoptosis through modulating PI3K/Akt/mTOR signaling pathway . Hederacolchiside A1 has antischistosomal activity, affecting parasite viability both in vivo and in vitro .

HY-N0735R

Phellodendrine chloride (Standard)	Alkaloids Structural Classification Phellodendron amurense Rupr. Rutaceae Phenols Polyphenols Plants Isoquinoline Alkaloids Source Classification	Reference Standards Autophagy mTOR AMPK Apoptosis STAT Interleukin Related PKC p38 MAPK NF-κB COX Reactive Oxygen Species (ROS) PI3K Akt MMP
Phellodendrine chloride (Standard) is the analytical standard of Phellodendrine chloride (HY-N0735). Phellodendrine chloride is an orally active plant alkaloid. Phellodendrine chloride inhibits the proliferation of KRAS-mutated pancreatic cancer cells by suppressing macropinocytosis and glutamine metabolism, inducing ROS accumulation and mitochondrial apoptosis. Phellodendrine chloride promotes autophagy by activating the *AMPK/mTOR* pathway, alleviating intestinal damage in ulcerative colitis. Phellodendrine chloride can alleviate gouty arthritis by inhibiting the IL-6/STAT3 signaling pathway. Phellodendrine chloride suppresses allergic reactions by altering the conformation of MRGPRB3/MRGPRX2 protein, thereby inhibiting the activation of PKC and subsequent downstream MAPK and NF-κB signaling. Phellodendrine chloride inhibits the *AKT/NF-κB* pathway and down-regulates the expression of COX-2, thereby protecting zebrafish embryos from oxidative stress. Phellodendrine chloride has an anti-major depressive disorder (MDD) effect by down-regulating CHRM1, HTR1A, and the *PI3K/Akt* signaling pathway.

HY-N15267

Ovalitenone	Natural Products Millettia peguensis Ali Leguminosae Plants Source Classification	FAK Akt mTOR
Ovalitenone is a flavonoid compound that can be isolated from the plant Millettia peguensis. It shows no cytotoxic effects on lung cancer H460 and A549 cells, but it significantly inhibits anchorage-independent growth, CSC-like phenotypes, colony formation, and the migration and invasion capabilities of cancer cells. Ovalitenone can significantly reduce the levels of N-cadherin, snail, and slug, while increasing E-cadherin, thus inhibiting the EMT pathway. Additionally, Ovalitenone suppresses the signaling pathways regulated by focal adhesion kinase (FAK), ATP-dependent tyrosine kinase (AKT), mammalian target of rapamycin (mTOR), and cell division cycle 42 (Cdc42) .

HY-N1338

Royleanone NSC 122417	Quinones Anthraquinones Labiatae Plants Source Classification Vachellia nilotica (L.) P. J. H. Hurter & Mabb.	mTOR Akt
Royleanone, a diterpenoid isolated from plants, inhibits the proliferation of cancer cells by inducing cell cycle arrest and mitochondria-mediated apoptosis, also inhibits cell migration potential, inhibits *mTOR/PI3/AKT* signaling pathway in LNCaP prostate cancer cells .

HY-N0047R

Polyphyllin I (Standard)	Structural Classification Liliaceae Paris polyphylla Smith Plants Saccharides Steroids	Reference Standards JNK mTOR Akt PDK-1 Autophagy Apoptosis
Polyphyllin I (Standard) is the analytical standard of Polyphyllin I. This product is intended for research and analytical applications. Polyphyllin I is a bioactive constituent extracted from Paris polyphylla, has strong anti-tumor activity. Polyphyllin I is an activator of the JNK signaling pathway and is an inhibitor of PDK1/Akt/mTOR signaling. Polyphyllin I induces autophagy, G2/M phase arrest and apoptosis .

HY-N0876R

Arenobufagin (Standard)	Structural Classification Animals Steroids Source Classification	Reference Standards Apoptosis Autophagy PI3K Akt mTOR PARP Caspase Atg8/LC3
Arenobufagin is a natural bufadienolide that can be extracted from toad venom. Arenobufagin can induce apoptosis and autophagy in human hepatocellular carcinoma cells through inhibition of PI3K/Akt/mTOR pathway. Arenobufagin has potent antineoplastic activity against HCC HepG2 cells as well as corresponding multidrug-resistant HepG2/ADM cells. Arenobufagin can inhibit VEGF-mediated angiogenesis through suppression of VEGFR-2 signaling pathway .

HY-N2447R

Amarogentin (Standard)	Structural Classification Gentiana scabra Bunge Iridoids Terpenoids Gentianaceae Phenols Polyphenols Plants Source Classification	Reference Standards AMPK Apoptosis
Amarogentin (Standard) is the analytical standard of Amarogentin. This product is intended for research and analytical applications. Amarogentin is a secoiridoid glycoside that is mainly extracted from Swertia and Gentiana roots. Amarogentin exhibits many biological effects, including anti-oxidative, anti-tumour, and anti-diabetic activities. Amarogentin exerts hepatoprotective and immunomodulatory effects. Amarogentin promotes apoptosis, arrests G2/M cell cycle and downregulates of PI3K/Akt/mTOR signalling pathways. Amarogentin exerts beneficial vasculo-metabolic effect by activating AMPK .

HY-N0559R

Kirenol (Standard)	Structural Classification Terpenoids Bituminaria morisiana (Pignatti & Metlesics) Greuter Diterpenoids Plants Compositae Source Classification	Reference Standards Casein Kinase Apoptosis AMPK Akt NF-κB TGF-beta/Smad
Kirenol (Standard) is the analytical standard of Kirenol (HY-N0559). This product is intended for research and analytical applications. Kirenol is a diterpenoid compound, an orally active apoptosis inducer and signaling pathway regulator, with a K_d value of 5.47 μM against the target CK2. Kirenol promotes the cleavage of Bid into tBid, regulates the protein levels/phosphorylation of Bax, Bcl-2, p53 and p21, and induces caspase-independent apoptosis, S-phase cell cycle arrest, ROS accumulation and cytotoxicity in cancer cells. Kirenol activates the CK2/AKT and AMPK-mTOR-ULK1 pathways, inhibits the signaling of NF-κB, TGF-β/Smads and NLRP3 inflammasome, and regulates the GSK3β, BMP and Wnt/β-catenin pathways. Kirenol induces autophagy, mitophagy and osteoblast differentiation, promotes mitochondrial fusion, and exerts antioxidant, anti-inflammatory, antifibrotic, renoprotective, cardioprotective, neuroprotective and analgesic effects. Kirenol is applicable to research related to chronic myeloid leukemia, ischemic stroke, diabetic nephropathy, heart failure, acute lung injury and osteoporosis.

HY-N6896R

Isoviolanthin (Standard)	Structural Classification Flavonoids other families Flavones Phenols Polyphenols Plants Source Classification	Reference Standards TGF-beta/Smad PI3K Akt mTOR MMP Histone Demethylase
Isoviolanthin (Standard) is the analytical standard of Isoviolanthin (HY-N6896). This product is intended for research and analytical applications. Isoviolanthin is a flavonoid glycoside. Isoviolanthin can be extracted from Dendrobium officinale. Isoviolanthin has a strong affinity for binding to KDM6B, CHAC2, ESCO2, and IPO4. Isoviolanthin decreases MMP-2 and MMP-9. Isoviolanthin inhibits TGF-β/Smad and *PI3K/Akt/mTOR* signaling pathways. Isoviolanthin increases Fhl3 expression. Isoviolanthin has cytoprotective effects. Isoviolanthin has anticancer activity against hepatocellular carcinoma .

HY-N8380

(-)-Latifolin	Dalbergia hupeana Hance Phenols Polyphenols Plants Source Classification Fabaceae	Apoptosis Autophagy PI3K Necroptosis
(-)-Latifolin, a flavonoid, induces apoptotic cell death by targeting *PI3K/AKT/mTOR/p70S6K* signaling. (-)-Latifolin significantly inhibits the cell proliferation of oral squamous cell carcinoma (OSCC), and causes the anti-metastatic activities by effectively blocking cell migration, invasion, and adhesion via the inactivation of FAK/Src. (-)-Latifolin suppresses autophagic-related proteins and autophagosome formation. (-)-Latifolin inhibits necroptosis by dephosphorylating necroptosis-regulatory proteins (RIP1, RIP3, and MLKL). (-)-Latifolin has beneficial effects on anti-aging, anti-carcinogenic, anti-inflammatory, and cardio-protective activities .

Cat. No.	Product Name	Chemical Structure

HY-W021448S

Glycocyamine-d2

Glycocyamine-d₂ (Guanidinoacetic acid-d₂) is the deuterium labeled Glycocyamine (HY-W021448). Glycocyamine is a direct precursor of creatine and an orally active energy metabolism regulator and myogenic differentiation inducer. Glycocyamine can activate the Akt/mTOR/S6K signaling pathway via miR-133a-3p and miR-1a-3p, and stimulate the mRNA expression of myogenic differentiation factor 1 (MyoD) and myopoietin (MyoG). Glycocyamine can increase muscle creatine concentration and maintain ATP homeostasis through the creatine phosphate/creatine kinase system. Glycocyamine can be used in research on feed additives for poultry farming.

HY-W021448S1

Glycocyamine-15N,13C2

Glycocyamine- ¹⁵N, ¹³C₂ (Guanidinoacetic acid- ¹⁵N, ¹³C₂) is the ¹³C and ¹⁵N labeled Glycocyamine (HY-W021448) . Clycocyamine is a direct precursor of creatine and an orally active energy metabolism regulator and myogenic differentiation inducer. Glycocyamine can activate the Akt/mTOR/S6K signaling pathway via miR-133a-3p and miR-1a-3p, and stimulate the mRNA expression of myogenic differentiation factor 1 (MyoD) and myopoietin (MyoG). Glycocyamine can increase muscle creatine concentration and maintain ATP homeostasis through the creatine phosphate/creatine kinase system. Glycocyamine can be used in research on feed additives for poultry farming.

HY-B0965AS

Thioridazine-d3 hydrochloride

Thioridazine-d₃ (hydrochloride) is the deuterium labeled Thioridazine. Thioridazine, an antagonist of the dopamine receptor D2 family proteins, exhibits potent anti-psychotic and anti-anxiety activities. Thioridazine is also a potent inhibitor of PI3K-Akt-mTOR signaling pathways with anti-angiogenic effect. Thioridazine shows antiproliferative and apoptosis induction effects in various types of cancer cells, with specificity on targeting cancer stem cells (CSCs) .

HY-B0965S

Thioridazine 2-Sulfone-d3

Thioridazine-d₃ 2-Sulfone is the deuterium labeled Thioridazine hydrochloride. Thioridazine hydrochloride, an orally active antagonist of the dopamine receptor D2 family proteins, exhibits potent anti-psychotic and anti-anxiety activities. Thioridazine hydrochloride is also a potent inhibitor of PI3K-Akt-mTOR signaling pathways with anti-angiogenic effect. Thioridazine hydrochloride shows antiproliferative and apoptosis induction effects in various types of cancer cells, with specificity on targeting cancer stem cells (CSCs) .

HY-W754199

Glycocyamine-13C

Glycocyamine- ¹³C (Guanidinoacetic acid- ¹³C) is the ¹³C-labeled Glycocyamine (HY-W021448). Glycocyamine is a direct precursor of creatine and an orally active energy metabolism regulator and myogenic differentiation inducer. Glycocyamine can activate the Akt/mTOR/S6K signaling pathway via miR-133a-3p and miR-1a-3p, and stimulate the mRNA expression of myogenic differentiation factor 1 (MyoD) and myopoietin (MyoG). Glycocyamine can increase muscle creatine concentration and maintain ATP homeostasis through the creatine phosphate/creatine kinase system. Glycocyamine can be used in research on feed additives for poultry farming.

HY-14153S

Tegaserod-d11

Tegaserod-d₁₁ is deuterated labeled Tegaserod (HY-14153). Tegaserod is an orally active serotonin receptor 4 (HTR4; 5-HT₄R) agonist and a 5-HT_2B receptor antagonist. Tegaserod has pK_is of 7.5, 8.4 and 7.0 for human recombinant 5-HT_2A, 5-HT_2B and 5-HT_2C receptors, respectively. Tegaserod causes tumor cell apoptosis, blunts PI3K/Akt/mTOR signaling and decreases S6 phosphorylation. Tegaserod has anti-tumor activity and has the potential for irritable bowel syndrome (IBS) research .

Targets Recommended: mTOR Akt RGS Protein

Cat. No.	Product Name	Target	Research Areas	Chemical Structure

HY-15244G

Alpelisib	PI3K Apoptosis	Cancer
Alpelisib GMP is Alpelisib (HY-15244) produced by using GMP guidelines. GMP small molecules works appropriately as an auxiliary reagent for cell therapy manufacture. Alpelisib (BYL-719) is an orally active PI3Kα-selective inhibitor that blocks the conversion of PIP2 to PIP3, thereby inhibiting pathways including *PI3K/AKT/mTOR, MAPK/ERK, Notch* and JAK-STAT. Alpelisib also induces apoptosis, G0/G1 phase arrest and senescence; it significantly inhibits the proliferation, self-renewal, stemness and epithelial-mesenchymal transition (EMT) of tumor cells, reduces cancer stem cell populations and decreases the expression of stem cell markers. Alpelisib not only enhances the sensitivity to Eribulin (HY-13442) and exerts a synergistic effect with Paclitaxel (HY-B0015), but may also induce drug resistance by upregulating the SGK3/GSK3β/β-catenin signaling pathway. Alpelisib can be applied to research related to breast cancer, gastric cancer and lipomas associated with PTEN hamartoma tumor syndrome .

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