Search Result
Results for "
Liver cancer model
" in MedChemExpress (MCE) Product Catalog:
1
Biochemical Assay Reagents
3
Isotope-Labeled Compounds
| Cat. No. |
Product Name |
Target |
Research Areas |
Chemical Structure |
-
- HY-114118
-
Semaglutide
Maximum Cited Publications
35 Publications Verification
|
GLP Receptor
Insulin Receptor
α-synuclein
Apoptosis
p38 MAPK
Autophagy
Bcl-2 Family
|
Neurological Disease
Metabolic Disease
Cancer
|
|
Semaglutide is a long-acting, selective, competitive GLP-1R agonist that can penetrate the blood-brain barrier. After activating GLP-1R, Semaglutide promotes insulin secretion, inhibits gastric emptying and appetite, and at the same time enhances autophagy, inhibits oxidative stress and apoptosis. Semaglutide also regulates mitochondrial function and lipid metabolism (such as reducing de novo lipogenesis in the liver). Semaglutide has activities such as lowering blood sugar, reducing weight, neuroprotection (such as improving motor function in Parkinson's disease models, reducing α-synuclein aggregation) and improving hepatic steatosis. Semaglutide can be used for the study of neurodegenerative diseases and liver diseases such as type 2 diabetes, obesity, Parkinson's disease, metabolic associated fatty liver disease (MASLD), and cancer .
|
-
-
- HY-N6871
-
|
|
Bacterial
IKK
Ferroptosis
|
Infection
Metabolic Disease
Inflammation/Immunology
Cancer
|
Abietic acid, an orally active diterpene isolated from Colophony, displays significant anti-proliferative, anti-inflammatory, anti-obesity effect, bacteriostatic, cell cycle arresting and pro-apoptotic activities. Abietic acid inhibits lipoxygenase activity for allergy. Abietic acid enhances cell migration and tube formation in HUVECs. Abietic acid induces significant angiogenic potential, which is associated with upregulation of extracellular signal-regulated kinase (ERK) and p38 expression. Abietic acid attenuates sepsis-induced lung injury by inhibiting nuclear factor kappa-light-chain-enhancer of activated B cells (NF-κB) pathway to inhibit M1 macrophage polarization. Abietic acid exhibits a positive effect against liver injury by attenuating inflammation and ferroptosis. Abietic acid shows accelerated wound closure in a mouse model of cutaneous wounds. Abietic acid significantly reduces the proliferation and growth of NSCLC cells by IKKβ inhibition.Additionally, Abietic acid ameliorates psoriasis-like inflammation and modulates gut microbiota in mice. Abietic acid is promising for research in non-small-cell lung cancer (NSCLC), liver injury-related deseases and psoriasis .
|
-
-
- HY-148559
-
|
|
Liposome
|
Cancer
|
|
4A3-SC8 is a modular degradable dendrimer that enables small RNAs to extend survival in an aggressive liver cancer model .
|
-
-
- HY-145799
-
5A2-SC8
1 Publications Verification
|
Liposome
|
Cancer
|
|
5A2-SC8 is an ionizable amino lipid in lipid nanoparticles (LNPs) that shows high delivery potential and low in vivo toxicity, enabling efficient delivery of small RNAs such as siRNA and miRNA into tumor cells. 5A2-SC8 LNPs can confer a unique delivery fate of RNA within the liver, thereby changing the therapeutic outcomes in cancer models .
|
-
-
- HY-114118B
-
|
|
GLP Receptor
Insulin Receptor
α-synuclein
Apoptosis
p38 MAPK
Autophagy
Bcl-2 Family
|
Neurological Disease
Metabolic Disease
Cancer
|
|
Semaglutide acetate is a long-acting, selective, competitive GLP-1R agonist that can penetrate the blood-brain barrier. After activating GLP-1R, Semaglutide acetate promotes insulin secretion, inhibits gastric emptying and appetite, and at the same time enhances autophagy, inhibits oxidative stress and apoptosis. Semaglutide acetate also regulates mitochondrial function and lipid metabolism (such as reducing de novo lipogenesis in the liver). Semaglutide acetate has activities such as lowering blood sugar, reducing weight, neuroprotection (such as improving motor function in Parkinson's disease models, reducing α-synuclein aggregation) and improving hepatic steatosis. Semaglutide acetate can be used for the study of neurodegenerative diseases and liver diseases such as type 2 diabetes, obesity, Parkinson's disease, metabolic associated fatty liver disease (MASLD), and cancer .
|
-
-
- HY-114118A
-
|
|
GLP Receptor
Insulin Receptor
α-synuclein
Apoptosis
p38 MAPK
Autophagy
Bcl-2 Family
|
Neurological Disease
Metabolic Disease
Cancer
|
|
Semaglutide TFA is a long-acting, selective, competitive GLP-1R agonist that can penetrate the blood-brain barrier. After activating GLP-1R, Semaglutide TFA promotes insulin secretion, inhibits gastric emptying and appetite, and at the same time enhances autophagy, inhibits oxidative stress and apoptosis. Semaglutide TFA also regulates mitochondrial function and lipid metabolism (such as reducing de novo lipogenesis in the liver). Semaglutide TFA has activities such as lowering blood sugar, reducing weight, neuroprotection (such as improving motor function in Parkinson's disease models, reducing α-synuclein aggregation) and improving hepatic steatosis. Semaglutide TFA can be used for the study of neurodegenerative diseases and liver diseases such as type 2 diabetes, obesity, Parkinson's disease, metabolic associated fatty liver disease (MASLD), and cancer .
|
-
-
- HY-A0033
-
|
UK-88525
|
mAChR
p38 MAPK
Akt
|
Neurological Disease
Metabolic Disease
Cancer
|
|
Darifenacin (UK-88525) is a selective and orally active M3 muscarinic receptor (M3R) antagonist with a pKi of 8.9. Darifenacin binds >20-fold more specifically to M3R than to other muscarinic receptors. Darifenacin can be used in the study of urinary incontinence and other symptoms of overactive bladder. Darifenacin inhibits tumor growth in colorectal cancer cells and has anti-tumor effects .
|
-
-
- HY-P2322
-
-
-
- HY-A0012
-
|
UK-88525 hydrobromide
|
mAChR
p38 MAPK
Akt
|
Neurological Disease
Metabolic Disease
Cancer
|
|
Darifenacin (UK-88525) hydrobromide is a selective and orally active M3 muscarinic receptor (M3R) antagonist with a pKi of 8.9. Darifenacin hydrobromide binds >20-fold more specifically to M3R than to other muscarinic receptors. Darifenacin hydrobromide can be used in the study of urinary incontinence and other symptoms of overactive bladder. Darifenacin hydrobromide inhibits tumor growth in colorectal cancer cells and has anti-tumor effects .
|
-
-
- HY-114118CP
-
|
|
GLP Receptor
Insulin Receptor
α-synuclein
Apoptosis
p38 MAPK
Autophagy
Bcl-2 Family
|
Neurological Disease
Metabolic Disease
Cancer
|
|
Semaglutide (crude) is the crude form of Semaglutide (HY-114118). Semaglutide is a long-acting, selective, competitive GLP-1R agonist that can penetrate the blood-brain barrier. After activating GLP-1R, Semaglutide promotes insulin secretion, inhibits gastric emptying and appetite, and at the same time enhances Autophagy, inhibits oxidative stress and Apoptosis. Semaglutide also regulates mitochondrial function and lipid metabolism (such as reducing de novo lipogenesis in the liver). Semaglutide has activities such as lowering blood sugar, reducing weight, neuroprotection (such as improving motor function in Parkinson's disease models, reducing α-synuclein aggregation) and improving hepatic steatosis. Semaglutide can be used for the study of neurodegenerative diseases and liver diseases such as type 2 diabetes, obesity, Parkinson's disease, metabolic associated fatty liver disease (MASLD), and cancer .
|
-
-
- HY-114118S3
-
|
|
Isotope-Labeled Compounds
GLP Receptor
Insulin Receptor
α-synuclein
Apoptosis
p38 MAPK
Autophagy
Bcl-2 Family
|
Metabolic Disease
|
|
Semaglutide- 13C6, 15N TFA is the 13C- and 15N-labeled Semaglutide TFA (HY-114118A). Semaglutide TFA is a long-acting, selective, competitive GLP-1R agonist that can penetrate the blood-brain barrier. After activating GLP-1R, Semaglutide TFA promotes insulin secretion, inhibits gastric emptying and appetite, and at the same time enhances autophagy, inhibits oxidative stress and apoptosis. Semaglutide TFA also regulates mitochondrial function and lipid metabolism (such as reducing de novo lipogenesis in the liver). Semaglutide TFA has activities such as lowering blood sugar, reducing weight, neuroprotection (such as improving motor function in Parkinson's disease models, reducing α-synuclein aggregation) and improving hepatic steatosis. Semaglutide TFA can be used for the study of neurodegenerative diseases and liver diseases such as type 2 diabetes, obesity, Parkinson's disease, metabolic associated fatty liver disease (MASLD), and cancer .
|
-
-
- HY-N0837
-
|
NSC17821; NSC23880
|
PI3K
Akt
mTOR
Autophagy
Apoptosis
|
Neurological Disease
Metabolic Disease
Inflammation/Immunology
Cancer
|
|
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-148118A
-
|
|
LYTACs
|
Cancer
|
|
Tri-GalNAc(OAc)3 TFA is a trivalent N-acetylgalactosamine (GalNAc) derivative that can be used to synthesize GalNAc-LYTAC. Tri-GalNAc is a specific ligand targeting the asialoglycoprotein receptor (ASGPR), mediating the endocytosis and transport of cell surface proteins (such as EGFR, HER2) to lysosomes for degradation by lysosomal targeting chimeras (LYTACs). Tri-GalNAc significantly reduces the level of target proteins and inhibits downstream signaling pathways (such as EGFR-mediated Akt and MAPK signals). Tri-GalNAc(OAc)3 TFA can be used for hepatocyte targeting studies, and can degrade carcinogenic membrane proteins and inhibit tumor cell proliferation in liver cancer cell models .
|
-
-
- HY-N2424
-
|
2-Phenyl-4-chromone
|
CDK
Apoptosis
Caspase
|
Cancer
|
|
Flavone is an anti-tumor compound that targets cell cycle regulatory proteins (such as cyclin B1) and apoptosis-related factors (such as p21waf1, PIG3). Flavone selectively induces mitochondrial-mediated apoptosis pathways in tumor cells, inhibits cyclin B1 protein expression, upregulates p21waf1, and activates p63/p73 proteins. Flavone has immunomodulatory functions that enhance natural killer cell (NK cell) activity and lymphocyte proliferation. Flavone is used in cancer research, especially for its inhibitory potential in solid tumor models such as esophageal cancer and liver cancer .
|
-
-
- HY-120356A
-
|
TAI-95 tosylate
|
NEKs
Apoptosis
|
Cancer
|
|
T-1101 tosylate (TAI-95 tosylate) is the tosylate salt form of T-1101 (HY-120356). T-1101 tosylate is an orally active inhibitor for mitose regulating highly expressed oncoprotein 1 (Hec1). T-1101 tosylate blocks the interaction between Hec1 and NEK2, exhibits cytotoxicity in human liver cancer cells with GI50 of 15-70 nM. T-1101 tosylate induces apoptosis in Huh-7. T-1101 tosylate exhibits antitumor efficacy in mouse models .
|
-
-
- HY-P99667
-
|
OMP-54F28; FZD8-Fc
|
Wnt
|
Cancer
|
|
Ipafricept (OMP-54F28; FZD8-Fc) is a first class recombinant fusion protein with the extracellular part of the human frizzled-8 receptor fused to a human IgG1 Fc fragment that binds Wnt ligands, which blocks Wnt signaling. Ipafricept reduces tumor growth and results in a decrease in both liver and lung metastases combined with Gemcitabine (HY-17026) in pancreatic cancer mouse models. Ipafricept shows solid tumor inhibition activity with well tolerance, such as desmoid tumor, germ cell cancer, ovarian cancer .
|
-
-
- HY-114118S1
-
|
|
Isotope-Labeled Compounds
GLP Receptor
Insulin Receptor
α-synuclein
Apoptosis
p38 MAPK
Autophagy
Bcl-2 Family
|
Neurological Disease
Metabolic Disease
Cancer
|
|
Semaglutide-d8 tetraTFA is the deuterium labeled Semaglutide (HY-114118). Semaglutide is a long-acting, selective, competitive GLP-1R agonist that can penetrate the blood-brain barrier. After activating GLP-1R, Semaglutide promotes insulin secretion, inhibits gastric emptying and appetite, and at the same time enhances autophagy, inhibits oxidative stress and apoptosis. Semaglutide also regulates mitochondrial function and lipid metabolism (such as reducing de novo lipogenesis in the liver). Semaglutide has activities such as lowering blood sugar, reducing weight, neuroprotection (such as improving motor function in Parkinson's disease models, reducing α-synuclein aggregation) and improving hepatic steatosis. Semaglutide can be used for the study of neurodegenerative diseases and liver diseases such as type 2 diabetes, obesity, Parkinson's disease, metabolic associated fatty liver disease (MASLD), and cancer .
|
-
-
- HY-114118S
-
|
|
Isotope-Labeled Compounds
GLP Receptor
Insulin Receptor
α-synuclein
Apoptosis
p38 MAPK
Autophagy
Bcl-2 Family
|
Neurological Disease
Metabolic Disease
Cancer
|
|
Semaglutide-d8 is the deuterium labeled Semaglutide (HY-114118). Semaglutide is a long-acting, selective, competitive GLP-1R agonist that can penetrate the blood-brain barrier. After activating GLP-1R, Semaglutide promotes insulin secretion, inhibits gastric emptying and appetite, and at the same time enhances autophagy, inhibits oxidative stress and apoptosis. Semaglutide also regulates mitochondrial function and lipid metabolism (such as reducing de novo lipogenesis in the liver). Semaglutide has activities such as lowering blood sugar, reducing weight, neuroprotection (such as improving motor function in Parkinson's disease models, reducing α-synuclein aggregation) and improving hepatic steatosis. Semaglutide can be used for the study of neurodegenerative diseases and liver diseases such as type 2 diabetes, obesity, Parkinson's disease, metabolic associated fatty liver disease (MASLD), and cancer .
|
-
-
- HY-15163
-
|
TG02; SB1317
|
JAK
CDK
FLT3
|
Cancer
|
|
Zotiraciclib (TG02; SB1317) is an orally active JAK2/FLT3/CDK2 inhibitor with IC50 values of 13 nM, 73 nM and 56 nM , respectively. Zotiraciclib inhibits cancer cell proliferation, tumor growth and the activity of CYP2D6. Zotiraciclib exhibits high plasma protein binding rate, Caco-2 permeability and tissue distribution capacity, as well as metabolic stability in human and canine liver microsomes. Zotiraciclib achieves tumor growth inhibition in nude mouse models of colon cancer and lymphoma xenografts. Zotiraciclib can be used for research related to colon cancer, B-cell lymphoma, advanced leukemia, acute leukemia and multiple myeloma .
|
-
-
- HY-156715
-
|
|
MASTL
|
Cancer
|
|
MASTL-IN-1 is a selective and orally active MASTL inhibitor with a Ki <0.03 nM. MASTL-IN-1 inhibits phosphorylation of ENSA and inhibits proliferation in cancer cells. MASTL-IN-1 induces tumor growth inhibition and stasis in pancreatic cancer xenograft models .
|
-
-
- HY-N5112A
-
|
Arnebin 1
|
FGFR
Necroptosis
Apoptosis
CDK
JNK
|
Inflammation/Immunology
|
|
β,β-Dimethylacrylalkannin (Arnebin 1) is an orally active FGFR1 inhibitor (IC50=2.5 μM) and the main active component of Lithospermum erythrorhizon. β,β-Dimethylacrylalkannin blocks downstream signaling by binding to the ATP pocket of FGFR1, and regulates the CDK1/Cdc25C pathway and ROS-JNK axis, thereby inducing G2/M phase arrest, necrosis and apoptosis in cancer cells, and inhibiting tumor proliferation. β,β-Dimethylacrylalkannin also acts as a colistin adjuvant to disrupt the cell membrane of Gram-negative bacteria. β,β-Dimethylacrylalkannin exhibits significant tumor-inhibitory effects with no obvious toxicity in PDX models, but chronic exposure to high doses may alter the relative lung/liver weights of rats, while acute exposure to high doses causes responses such as reduced motor activity. β,β-Dimethylacrylalkannin finds wide application in studies related to hepatocellular carcinoma, colorectal cancer, colistin-resistant bacterial infections, hepatitis and psoriasis .
|
-
-
- HY-N2445
-
|
|
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
|
Cancer
|
|
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-P10086
-
|
Human TREM-1(213-221)
|
TREM receptor
TNF Receptor
Interleukin Related
c-Fms
|
Neurological Disease
Inflammation/Immunology
Cancer
|
|
TREM-1 inhibitory peptide GF9 (Human TREM-1 (213-221)) is a TREM-1 inhibitor. TREM-1 inhibitory peptide GF9 blocks the TREM-1 signaling pathway via a ligand-independent mechanism, spontaneously inserts into the cell membrane to dissociate TREM-1 from DAP-12, and functions through the Signaling Chain Homooligomerization (SCHOOL) model. TREM-1 inhibitory peptide GF9 reduces the levels of TNFα, IL-1β, IL-6, and M-CSF. TREM-1 inhibitory peptide GF9 inhibits tumor growth, prolongs the survival of mice with pancreatic cancer models, ameliorates collagen-induced arthritis, and exerts protective effects on bone and cartilage simultaneously. TREM-1 inhibitory peptide GF9 can be used in research related to arthritis, pancreatic cancer, retinopathy, alcoholic liver disease, and liver cancer .
|
-
-
- HY-170935
-
|
|
SRPK
PARP
Caspase
Apoptosis
Autophagy
|
Cancer
|
|
SRSF1-IN-1 is a SRSF1 inhibitor. SRSF1-IN-1 inhibits SRSF1 expression, thereby modulating the splicing of Bcl-x pre-mRNA. SRSF1-IN-1 inhibits the proliferation of various cancer cells. SRSF1-IN-1 induces apoptosis in gastric cancer cells, reduces Bcl-xl expression, and upregulates cleaved PARP and caspase 3. SRSF1-IN-1 induces autophagy and promotes cell death. SRSF1-IN-1 exhibits anti-tumor activity in a mouse gastric cancer xenograft model. SRSF1-IN-1 can be used for the research of various cancers including liver cancer, gastric cancer, breast cancer, colon cancer, glioma, and melanoma .
|
-
-
- HY-N4107
-
|
|
TGF-beta/Smad
|
Infection
Inflammation/Immunology
Cancer
|
|
Phyllanthin is an effective oral anticancer agent. Phyllanthin inhibits MOLT-4 cell viability, increases apoptosis, inhibits cell migration and invasion. Phyllanthin exerts anti-fibrotic effects by down-regulating TGF signaling pathway via ALK5 and Smad2/3. Phyllanthin also has anti-inflammatory and antibacterial properties .
|
-
-
- HY-169120
-
|
|
Telomerase
|
Cancer
|
|
FKB04 is a telomeric repeat binding factor 2 (TRF2) inhibitor that exerts its antitumor activity by disrupting the telomere maintenance mechanism in liver cancer cells, leading to T-loop defects, telomere shortening, and cellular senescence. Additionally, FKB04 can inhibit tumor growth in a human liver cancer xenograft mouse model (with Huh-7 cells implanted in BALB/c mice). FKB04 can be used in liver cancer research .
|
-
-
- HY-174790
-
|
|
mRNA
|
Cancer
|
|
Firefly Luciferase mRNA is a reporter mRNA that can be transfected into cells to express firefly luciferase protein. Firefly Luciferase mRNA induces cytotoxicity in cancer cells at low concentrations. In cancer cells, the expression level of luciferase shows a non-linear relationship with the dose of Firefly Luciferase mRNA. When combined with the H2S-responsive bioluminescent probe (H-Luc), Firefly Luciferase mRNA enables bioluminescence-based detection of endogenous hydrogen sulfide in non-transgenic NAFLD cell models and NAFLD mouse models. Firefly Luciferase mRNA can be used in studies related to non-alcoholic fatty liver disease .
|
-
-
- HY-B1341
-
|
Enidrel; SC-4642; NSC 15432
|
Endogenous Metabolite
Progesterone Receptor
|
Cancer
|
|
Norethynodrel (Enidrel; SC-4642) is an orally active progestogen analog that reduces estrogen-like effects and enhances progestogen-like responses in endometrial stromal cells. Norethynodrel also promotes cell maturation and predecidual cell formation by inducing organelle hyperplasia and glycogen accumulation. Norethynodrel competitively inhibits drug-metabolizing enzymes in rat liver microsomes, thereby prolonging Pentobarbital sleep time, while exhibiting multiple effects including reduced body weight gain, attenuated heart rate elevation and ovulation inhibition. In mouse models, Norethynodrel significantly increases the incidence of mammary adenocarcinoma, cervical cancer and pituitary tumors. Norethynodrel can be used for mechanism research on related diseases such as mammary adenocarcinoma, cervical cancer, ovarian tubular adenoma and pituitary adenoma .
|
-
-
- HY-W020788
-
|
CGA 154281
|
Environmental Pollutants
Glutathione S-transferase
Estrogen Receptor/ERR
Pregnane X Receptor (PXR)
FXR
|
Metabolic Disease
Cancer
|
Benoxacor (CGA 154281) is a herbicide safener and xenobiotic metabolism regulator. Benoxacor protects maize from the toxicity of metolachlor mainly by inducing detoxifying enzymes such as Glutathione S-transferase. Benoxacor also activates FXR, PXR and ERRα, and inhibits aromatase (aromatase). However, Benoxacor exhibits potential subacute oral toxicity and a high risk of hepatotoxicity in animal models. Benoxacor induces reactive oxygen species accumulation, interferes with embryonic heart development, and causes increased liver and kidney weights as well as alterations in gut microbiota in mice. Benoxacor can be used in studies related to hepatic steatosis, infertility, breast cancer and developmental toxicity .
|
-
-
- HY-176869
-
|
|
Drug Derivative
|
Cancer
|
|
EMC-AANL-DOX is a legumain-activated prodrug conjugate of Doxorubicin (DOX) (HY-15142A). EMC-AANL-DOX shows antitumor activity in mouse models of neuroblastoma (NB), breast cancer (4T1), fibrosarcoma (HT1080), and colorectal cancer liver metastases (CT26). EMC-AANL-DOX can be used for cancer research .
|
-
-
- HY-149040
-
|
(S)-OBI-3424; (S)-TH-3424; AST-3424
|
17β-HSD
|
Cancer
|
|
Odafosfamide ((S)-OBI-3424) is a highly selective prodrug bis-alkylating agent activated by aldehyde-keto reductase 1C3 (AKR1C3(). Odafosfamide is highly cytotoxic to cell lines with high AKR1C3 expression. Odafosfamide exhibits antitumor activity in a variety of tumors with high AKR1C3 expression (such as liver cancer, non-small cell lung cancer, and leukemia). Odafosfamide can be used in cancer research .
|
-
-
- HY-145799A
-
|
|
Liposome
|
Cancer
|
|
5A2-SC8 TFA is an ionizable amino lipid in lipid nanoparticles (LNPs) that shows high delivery potential and low in vivo toxicity, enabling efficient delivery of small RNAs such as siRNA and miRNA into tumor cells. 5A2-SC8 TFA LNPs can confer a unique delivery fate of RNA within the liver, thereby changing the therapeutic outcomes in cancer models .
|
-
-
- HY-178367
-
|
|
Phosphatase
Apoptosis
Caspase
PARP
|
Cancer
|
|
PFKFB4-IN-1 is a potent and selective ATP-competitive PFKFB4 inhibitor (IC50 = 4.50 μM) that reduces intracellular PFKFB4 protein levels. PFKFB4-IN-1 exhibits >12-fold selectivity over PFKFB1/4 and PFKFB3/4. PFKFB4-IN-1 inhibits cancer cell proliferation, induces apoptosis, and inhibits cell migration. PFKFB4-IN-1 inhibits tumor growth in the MDA-MB-231 xenograft mouse model. PFKFB4-IN-1 can be used for breast, lung and liver cancer research .
|
-
-
- HY-N0837R
-
|
NSC17821 (Standard); NSC23880 (Standard)
|
Reference Standards
PI3K
Akt
mTOR
Autophagy
Apoptosis
|
Neurological Disease
Metabolic Disease
Cancer
|
|
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-141439
-
|
|
Keap1-Nrf2
Quinone Reductase
Glutathione S-transferase
Apoptosis
TNF Receptor
|
Inflammation/Immunology
Cancer
|
|
TBE 31 is an orally active Keap1/Nrf2 pathway activator and NQO1 inducer with a Dm value of 1.1 nM for NQO1. TBE 31 binds to cysteine residues of Keap1, inhibits ubiquitination and degradation of Nrf2, thereby activating the expression of ARE-dependent genes. TBE 31 induces cytoprotective enzymes including NQO1 and GST isoforms, promotes Nrf2 accumulation, and upregulates Nrf2-regulated genes related to antioxidation and lipid metabolism. TBE 31 inhibits pro-inflammatory responses, formation of AFB1-DNA adducts, endoplasmic reticulum stress, cell apoptosis (apoptosis), hepatic fibrosis, oxidative stress, and the expression of ChREBP. TBE 31 reduces the number of tumors in a mouse model of ultraviolet-induced skin carcinogenesis. TBE 31 enhances nerve growth factor-induced neurite outgrowth. TBE 31 attenuates LPS-induced serum TNF-α levels and immobility time in mice. TBE 31 can be used in research related to liver cancer, skin cancer, inflammation-related depression, and non-alcoholic steatohepatitis .
|
-
-
- HY-179578
-
|
|
Enolase
AMPK
Autophagy
Apoptosis
mTOR
Caspase
|
Metabolic Disease
Cancer
|
|
SU212 is a podophyllotoxin-derived ENO1 inhibitor and AMPK activator. SU212 can selectively induce oxidative phosphorylation, reduce glycolysis activity and glucose uptake in tumor cells, and directly bind to ENO1 without affecting these pathways in normal cells. SU212 induces apoptosis and promotes ENO1 degradation via proteasomal and autophagic pathways without inhibiting the catalytic activity. SU212 leads to mitotic arrest and apoptosis in TNBC (triple-negative breast cancer) cells by activating AMPK, demonstrating potent anti-tumor activity in vitro. SU212 inhibits tumor growth and metastasis in syngeneic, xenograft, and diabetic mouse models, exhibiting an excellent safety profile. SU212 can be used in research on t TNBC, diabetes, and fatty liver disease .
|
-
-
- HY-118028
-
|
|
Drug Derivative
|
Cardiovascular Disease
Inflammation/Immunology
|
|
Leyk is an orally active Cysteine derivative. Leyk stimulates bone marrow hematopoiesis. Leyk exerts a significant protective effect against cyclophosphamide-induced leukopenia. Leyk can be used in studies related to thrombocytopenia and leukopenia .
|
-
-
- HY-P991566
-
|
|
CTLA-4
|
Cancer
|
|
KD6001 is a humanized IgG1κ monoclonal antibody, targeting CTLA4. KD6001 significantly disrupts CTLA-4 interactions with CD80 (IC50: 16 ng/mL) and CD86. KD6001 enhances IL-2 and IFNγ expression in PHA-activated human lymphocytes and exhibits potent antitumor effects. KD6001 effectively inhibits tumor growth in MC38, B16, and Hepa1-6 tumor mice model. KD6001 can be used for cancers research, such as advanced melanoma, hepatocellular carcinoma and liver cancer .
|
-
-
- HY-P991448
-
|
|
Glycoprotein VI
|
Cancer
|
|
MDX-1414 is a human IgG1 monoclonal antibody (mAb) targeting GPC3. MDX-1414 has antitumor activity in the HepG2 xenograft model. MDX-1414 can be used in liver cancer research. Recommended isotype control: Human IgG1 kappa, Isotype Control (HY-P99001) .
|
-
-
- HY-178960
-
|
|
Microtubule/Tubulin
Apoptosis
|
Cancer
|
|
Tubulin-IN-59 (Compound 8g) is an orally active Tubulin inhibitor. Tubulin-IN-59 exhibits potent anti-proliferative activity against HCT116 colorectal cancer, HeLa cervical cancer, and HepG2 liver cancer cell lines, with its IC₅₀ value ranging from 16 to 35 nM. Tubulin-IN-59 arrests HeLa cells in the G2/M phase and induces cell apoptosis. Tubulin-IN-59 demonstrates significant anti-tumor activity in the HT29 human colon cancer mouse xenograft model. Tubulin-IN-59 can be used for the study of colorectal cancer and cervical cancer .
|
-
-
- HY-178098
-
|
|
YAP
|
Cancer
|
|
TEAD-IN-21 is a potent and orally active pan-TEAD inhibitor with an IC50 of 3 nM. TEAD-IN-21 effectively inhibited the proliferation of Huh-7 cells. TEAD-IN-21 selectively downregulates TEAD-dependent downstream genes. TEAD-IN-21 achieves tumor regression in a liver cancer-derived tumor xenograft mice model. TEAD-IN-21 can be used in the research of hepatocellular carcinoma (HCC) .
|
-
-
- HY-120356
-
|
TAI-95
|
Apoptosis
NEKs
|
Cancer
|
|
T-1101 (TAI-95) is an orally active inhibitor for mitose regulating highly expressed oncoprotein 1 (Hec1). T-1101 blocks the interaction between Hec1 and NEK2, exhibits cytotoxicity in human liver cancer cells with GI50 of 15-70 nM. T-1101 induces apoptosis in Huh-7. T-1101 exhibits antitumor efficacy in mouse models .
|
-
-
- HY-175857
-
|
|
HDAC
Apoptosis
|
Cancer
|
|
HDAC-IN-92 is a pan-HDAC inhibitor with an IC50 of 12.58 µM in A2780 cells. HDAC-IN-92 demonstrates broad-spectrum, notable cytotoxic activity against a range of human cancer cell lines, including ovarian, liver, and breast carcinomas. HDAC-IN-92 causes apoptosis and demonstrates a notable decrease in tumor cell colony formation. HDAC-IN-92 inhibits the formation of blood vessels in the chick chorioallantoic membrane (CAM). HDAC-IN-92 exhibits anti-tumor effect in a 4T1 tumor-bearing mouse model. HDAC-IN-92 can be used for research targeting solid tumor .
|
-
-
- HY-W020788R
-
|
CGA 154281 (Standard)
|
Reference Standards
Glutathione S-transferase
Estrogen Receptor/ERR
Pregnane X Receptor (PXR)
FXR
|
Others
|
|
Benoxacor (Standard) is the analytical standard of Benoxacor. This product is intended for research and analytical applications. Benoxacor (CGA 154281) is a herbicide safener and xenobiotic metabolism regulator. Benoxacor protects maize from the toxicity of metolachlor mainly by inducing detoxifying enzymes such as Glutathione S-transferase. Benoxacor also activates FXR, PXR and ERRα, and inhibits aromatase (aromatase). However, Benoxacor exhibits potential subacute oral toxicity and a high risk of hepatotoxicity in animal models. Benoxacor induces reactive oxygen species accumulation, interferes with embryonic heart development, and causes increased liver and kidney weights as well as alterations in gut microbiota in mice. Benoxacor can be used in studies related to hepatic steatosis, infertility, breast cancer and developmental toxicity .
|
-
-
- HY-159771
-
|
|
FAP
|
Cancer
|
|
FAP6-19 is a fibroblast activation protein (FAP) targeting radioligand with a Kd of 18.2 nM. FAP6-19 selectively delivers therapeutic radioactive nuclides (such as 177Lu) to the tumor site by targeting the overexpressed FAP protein in the tumor microenvironment, achieving precise killing of cancer cells while minimizing radiation damage to healthy tissues. FAP6-19 exhibits extremely high total cellular uptake and good intracellular retention ability in HT1080 cells. After being labeled with 111In, FAP6-19 produced extremely high tumor/kidney and tumor/liver dose ratios in the mouse model with 4T1 tumors. FAP6-19 can be used in the research of solid tumors expressing FAP.
|
-
-
- HY-143402
-
|
|
Topoisomerase
|
Cancer
|
|
Topoisomerase I/II inhibitor 2 (compound 1a) is a potent Topoisomerase inhibitor (IC50= 9.82 μM on Huh7 cells and 6.83 μM on LM9 cells). Topoisomerase I/II inhibitor 2 has dual inhibition on DNA topoisomerase I/II, also can obviously reduce the growth of xenograft tumor in mice model. Topoisomerase I/II inhibitor 2 has the potential value in researching liver cancer .
|
-
-
- HY-162657
-
|
|
Cholinesterase (ChE)
|
Cancer
|
|
AChE-IN-74 (Compound 10) is a modulator for cholinesterase. AChE-IN-74 inhibits the proliferation of liver cancer cell Hep3B and SkHep1 with IC50 of 3.6 and 19.9 μM. AChE-IN-74 exhibits a low embryonic toxicity in zebrafish models (10-15 μM) .
|
-
-
- HY-122224
-
|
|
Sigma Receptor
|
Cancer
|
|
SW43 is a Sigma-2 selective ligand and agonist. SW43 is an ideal molecule for the development of cancer-targeted drug compounds. SW43 conjugated with DOX-L-NETA ( 89Y) exhibits antitumor activity in a VX2 cancer liver tumor allograft rabbit model. SW 43 conjugated with SW IV-52s to form SW III-123 activates the NF-κB pathway, has potent cytotoxicity against ovarian cancer cell lines, and induces apoptosis .
|
-
-
- HY-168102
-
|
|
Microtubule/Tubulin
Apoptosis
|
Cancer
|
|
Antiproliferative agent-59 (Compound 14u) is an inhibitor for tubulin polymerization. Antiproliferative agent-59 exhibits antiproliferative activities against cancer cells Huh7, SGC-7901, and MCF-7 with IC50 of 0.03, 0.18, and 0.13μM. Antiproliferative agent-59 arrests the cell cycle at G2/M phase and induces apoptosis in Huh7 cell. Antiproliferative agent-59 exhibits antitumor efficacy against liver cancer in Huh7 xenograft mouse models, without significant toxicity .
|
-
-
- HY-172225
-
|
|
Apoptosis
Autophagy
Ferroptosis
|
Cancer
|
|
[Ru(phen)2(HMPIP)](PF6)2 (Compound 6A) is an anti-tumor agent. [Ru(phen)2(HMPIP)](PF6)2 can inhibit the proliferation and migration of HepG2 liver cancer cells, and induce apoptosis, autophagy, cell cycle arrest and ferroptosis of HepG2 liver cancer cells. [Ru(phen)2(HMPIP)](PF6)2 exerts its anti-tumor activity by stimulating immune response to increase CD8+ T cells .
|
-
2](//file.medchemexpress.com/product_pic/hy-172225.gif)
- HY-178451
-
|
|
Apoptosis
|
Cancer
|
|
NQO1-responsive prodrug is a prodrug of Gemcitabine (dFdC) (HY-17026) with anti-cancer effect. NQO1-responsive prodrug remains stable in plasma and liver/intestinal S9 fractions, releasing dFdC in an NQO1-dependent manner. NQO1-responsive prodrug induces S-phase arrest and apoptosis. NQO1-responsive prodrug inhibits tumor growth in an A549 xenograft mouse model. NQO1-responsive prodrug can be used for breast and non-small cell lung cancer (NSCLC) research .
|
-
- HY-N4107R
-
|
|
Reference Standards
TGF-beta/Smad
|
Infection
Inflammation/Immunology
Cancer
|
|
Phyllanthin (Standard) is the analytical standard of Phyllanthin. This product is intended for research and analytical applications. Phyllanthin is an effective oral anticancer agent. Phyllanthin inhibits MOLT-4 cell viability, increases apoptosis, inhibits cell migration and invasion. Phyllanthin exerts anti-fibrotic effects by down-regulating TGF signaling pathway via ALK5 and Smad2/3. Phyllanthin also has anti-inflammatory and antibacterial properties .
|
-
- HY-172891
-
|
|
CDK
HDAC
Apoptosis
|
Cancer
|
|
CDK9/HDAC1/HDAC3-IN-1 is dual-functional inhibitor of CDK9 and HDAC. CDK9/HDAC1/HDAC3-IN-1 inhibits the protein activity of CDK9/HDAC/HDAC3 with IC50 s of 0.17 μM, 1.73 μM and 1.11 μM for CDK9, HDAC1, and HDAC3, respectively. CDK9/HDAC1/HDAC3-IN-1 inhibits cancer cells by inducing cell apoptosis and cell cycle arrest in the G2/M phase, as well as tumor growth in a murine TNBC MDA-MB-231 xenograft model. CDK9/HDAC1/HDAC3-IN-1 has a broad-spectrum anti-cancer activity, such as breast cancer, cervical cancer, and liver cancer .
|
-
- HY-179033
-
|
|
Nuclear Hormone Receptor 4A/NR4A
Apoptosis
ASK1
JNK
p38 MAPK
|
Cancer
|
|
Nur77 antagonist 2 (Compound 12b) is an orally active Nur77 antagonist with a KD value of 0.42 μM. Nur77 antagonist 2 exhibits proliferative activity on liver cancer cells. Nur77 antagonist 2 stabilizes Nur77 by inhibiting its ubiquitin-proteasomal degradation,
leading to Nur77-dependent apoptosis via the ASK1-JNK/p38 pathway. Nur77 antagonist 2 inhibits tumor growth in the HCCLM3 xenograft model. Nur77 antagonist 2 can be used for the study of hepatocellular carcinoma (HCC) .
|
-
- HY-A0012R
-
|
UK-88525 hydrobromide (Standard)
|
Reference Standards
mAChR
p38 MAPK
Akt
|
Neurological Disease
Metabolic Disease
Cancer
|
|
Darifenacin (hydrobromide) (Standard) is the analytical standard of Darifenacin (hydrobromide). This product is intended for research and analytical applications. Darifenacin (hydrobromide) is a selective and orally active M3 muscarinic receptor (M3R) antagonist with a pKi of 8.9. Darifenacin (hydrobromide) binds >20-fold more specifically to M3R than to other muscarinic receptors. Darifenacin (hydrobromide) can be used in the study of urinary incontinence and other symptoms of overactive bladder. Darifenacin (hydrobromide) inhibits tumor growth in colorectal cancer cells and has anti-tumor effects .
|
-
- HY-169480
-
|
|
Liposome
|
Infection
Cancer
|
|
Lipid C2 is an ionizable cationic lipid that has been used in the formation of lipid nanoparticles (LNP) for mRNA delivery in vivo. LNPs containing Lipid C2 and encapsulating an mRNA reporter selectively accumulate in the liver and spleen but not the heart, lungs, or kidneys in mice. LNP containing Lipid C2 and encapsulating mRNA encoding the Epstein-Barr virus (EBV) protein latent membrane protein 2 (LMP-2), in combination with an anti-programmed cell death protein 1 (PD-1) antibody, decrease tumor volume and reverse T cell exhaustion, as well as increase the percentage of CD3 +CD8 + central and CD3 +CD8 + effector memory T cells and decrease the percentage of CD3 + T cells expressing Pd-1, in the spleen in a CT26 murine EBV-infected colon cancer model .
|
-
- HY-181599
-
|
|
Mitochondrial Metabolism
DNA/RNA Synthesis
Reactive Oxygen Species (ROS)
Apoptosis
Autophagy
Caspase
Bcl-2 Family
Atg8/LC3
|
Cancer
|
|
XAN-5 is a mitochondrial DNA G-quadruplex (mtG4) ligand with a Kd of 3.8 μM. XAN-5 selectively binds and stabilizes mtG4 structures, disrupting mitochondrial gene transcription and DNA replication. XAN-5 triggers mitochondrial dysfunction, ROS overproduction, G0 phase arrest and caspase-dependent apoptosis. XAN-5 inhibits autophagy and induces immunogenic cell death. XAN-5 inhibits tumor growth in a mouse liver cancer model while enhancing tumor-infiltrating CD4 + and CD8 + T cells. XAN-5 targets two cancer resistance mechanisms simultaneously. XAN-5 can be used for the research of liver cancer .
|
-
- HY-P11624
-
|
|
Apoptosis
|
Cancer
|
|
PP-60 is an apoptosis inducer. PP-60 inhibits the proliferation of cancer cells and induces cancer cell apoptosis. PP-60 exerts anti-tumor effects in nude mouse liver tumor models. PP-60 is applicable to research related to cancers such as liver cancer, lung cancer, and prostate cancer .
|
-
- HY-181723
-
|
|
PARP
Bcl-2 Family
Apoptosis
|
Cancer
|
|
Anticancer agent 304 is an anticancer agent. Anticancer agent 304 binds to CDC45 with a Kd value of 83.0 μM. Anticancer agent 304 arrests the cell cycle of liver cancer cells at the G2/M phase, induces Apoptosis by upregulating C-PARP-1 and downregulating PARP-1 and BCL-2, and inhibits the migration, invasion and proliferation of liver cancer cells. Anticancer agent 304 suppresses tumor growth in animal models of hepatocellular carcinoma. Anticancer agent 304 is applicable to research related to liver cancer .
|
-
- HY-175048
-
|
Platinum(II)-N-heterocyclic carbene complex 2C
|
Reactive Oxygen Species (ROS)
Apoptosis
ER-phagy
|
Cancer
|
|
Pt(II)-NHC Complex 2C (Platinum(II)-N-Heterocyclic Carbene complex 2C) (Compound 2C) is a platinum(II) complex based on N-heterocyclic carbene (NHC). Pt(II)-NHC Complex 2C is an immunogenic cell death (ICD) inducer that can induce endoplasmic reticulum stress (ERS) in liver cancer cells and produce reactive oxygen species (ROS), ultimately leading to the release of damage-associated molecular patterns (DAMP). Pt(II)-NHC Complex 2C blocks the cell cycle at the S phase and significantly induces cell apoptosis. Pt(II)-NHC Complex 2C shows anti-liver cancer potential in mouse models and activates immune cells in liver injury models.
|
-
- HY-N18091
-
|
|
Akt
GSK-3
Keap1-Nrf2
NF-κB
Apoptosis
|
Infection
Neurological Disease
Metabolic Disease
Inflammation/Immunology
Cancer
|
|
Tovophyllin A is an orally active xanthonoid compound. Tovophyllin A exerts neuroprotective effects against Parkinson's disease by activating the Akt/GSK3β signaling pathway. Tovophyllin A protects mouse models of liver injury by activating Nrf2. Tovophyllin A exhibits protective anti-inflammatory activity in mouse models of acute lung injury. Tovophyllin A inhibits the activation of NF-κB and subsequent release of pro-inflammatory cytokines. Tovophyllin A reduces apoptotic cell death (Apoptosis). Tovophyllin A has antiplasmodial activity. Tovophyllin A shows cytotoxic activity against lung epithelial cancer cells and breast cancer cells. Tovophyllin A can be used in research related to Parkinson's disease, liver injury, acute lung injury, lung epithelial cancer, and breast cancer .
|
-
- HY-P992372
-
|
|
Drug Derivative
Transmembrane Glycoprotein
|
Cancer
|
|
huAA98 is a humanized monoclonal antibody and also a CD146 inhibitor. huAA98 binds to human CD146, regulates its activity and inhibits cancer-related angiogenesis, as well as tube formation, motility, proliferation and migration of endothelial cells. huAA98 inhibits angiogenesis in the chick chorioallantoic membrane assay and reduces microvessel density in human tumor xenograft models. huAA98 shows immunoreactivity only to neovascular vessels within tumors and inhibits the growth of tumor xenograft models. huAA98 can be used in studies related to cancer-related angiogenesis, liver cancer, leiomyosarcoma and pancreatic cancer .
|
-
- HY-186001
-
|
RM-044
|
Ras
β-catenin
|
Cancer
|
|
RMC-9945 (RM-044) is a KRAS inhibitor and selective, covalent, orally active RAS(ON) G12D inhibitor. RMC-9945 increases β-Catenin/TCF transcriptional activity. RMC-9945 exerts durable disease control in preclinical colorectal cancer models of early liver metastasis .
|
-
- HY-182336
-
|
|
PROTACs
Dipeptidyl Peptidase
GLP Receptor
|
Inflammation/Immunology
Cancer
|
|
DeDPP4 is a DPP-4 PROTAC degrader. DeDPP4 induces sustained elevation of glucagon-like peptide-1 (GLP-1), enhances glucose tolerance, causes persistent reduction of blood glucose, and achieves long-term blood glucose regulation in animal models of type 2 diabetes. DeDPP4 mediates dose-dependent DPP-4 depletion in cancer cells, and also targets and degrades DPP-4 in the liver and adipose tissues of animal models with type 2 diabetes. DeDPP4 can be used for the research of type 2 diabetes and non-small cell lung cancer .
|
-
- HY-180159
-
|
|
Microtubule/Tubulin
Apoptosis
|
Cancer
|
|
Tubulin-IN-63 is a potent tubulin polymerization inhibitor targeting the colchicine-binding site, with an IC50 of 6.03 µM. Tubulin-IN-63 disrupts microtubule dynamics, induces G2/M arrest and apoptosis, thereby suppressing cancer cell proliferation. Tubulin-IN-63 disrupts capillary network formation in human umbilical vein endothelial cells (HUVECs) and exhibits in vivo antitumor efficacy in a B16-F10 mouse model. Tubulin-IN-63 can be used for the research of cancers, such as melanoma, lung cancer, and liver cancer .
|
-
- HY-P11618
-
|
|
Glycoprotein VI
|
Cancer
|
|
10P3Me is a Glypican-3 (GPC3)-targeting probe with a Ka of 93.8 nM for the human target. 10P3Me exhibits high binding affinity to GPC3, targets GPC3-positive cells, and serves as an agent for PET imaging. 10P3Me selectively accumulates in GPC3-positive tumor tissues, including subcutaneous xenograft models and orthotopic HepG2-LUC liver cancer models, to achieve precise localization of lesions .
|
-
- HY-114118C
-
|
|
GLP Receptor
Insulin Receptor
α-synuclein
Apoptosis
p38 MAPK
Autophagy
Bcl-2 Family
|
Neurological Disease
Metabolic Disease
Cancer
|
|
Semaglutide sodium is a long-acting, selective, competitive GLP-1R agonist that can penetrate the blood-brain barrier. After activating GLP-1R, Semaglutide sodium promotes insulin secretion, inhibits gastric emptying and appetite, and at the same time enhances autophagy, inhibits oxidative stress and apoptosis. Semaglutide sodium also regulates mitochondrial function and lipid metabolism (such as reducing de novo lipogenesis in the liver). Semaglutide sodium has activities such as lowering blood sugar, reducing weight, neuroprotection (such as improving motor function in Parkinson's disease models, reducing α-synuclein aggregation) and improving hepatic steatosis. Semaglutide sodium can be used for the study of neurodegenerative diseases and liver diseases such as type 2 diabetes, obesity, Parkinson's disease, metabolic associated fatty liver disease (MASLD), and cancer .
|
-
- HY-180913
-
|
|
Connective Peptide
|
Cancer
|
|
FQI2-34 is an orally active TFCP2 (LSF) small molecule allosteric inhibitor. FQI2-34 directly binds to the LSF protein (Ki = 63 nM), inhibits the oligomerization of LSF, efficiently suppresses the transcriptional activity of LSF (IC₅₀ = 48 nM), and interferes with the SF-DNA interaction. FQI2-34 exhibits significant anti-proliferative activity against Huh7 cells and induces tumor regression in mouse models. FQI2-34 can be used for research on liver cancer .
|
-
- HY-D3191
-
|
|
Fluorescent Dye
Aminopeptidase
Monoamine Oxidase
|
Infection
Metabolic Disease
|
|
L&M-D-MR is a highly specific fluorescent "AND" logic probe with response moieties for leucine aminopeptidase (LAP) and monoamine oxidase (MAO). The coexistence of both LAP and MAO is required for L&M-D-MR to trigger intramolecular cyclization, release fluorophores and activate fluorescence. In the presence of only a single enzyme, L&M-D-MR generates only an extremely weak signal. L&M-D-MR enables bioimaging in living cells and mouse models, and can effectively distinguish different subtypes of liver diseases via blood samples or test strips. L&M-D-MR is widely used in studies related to liver cirrhosis, hepatitis B and drug-induced liver injury .
|
-
- HY-183246
-
|
|
PAK
Cdc42-binding kinase
|
Cancer
|
|
Rac/Cdc42-IN-1, the major phase I metabolite of the oral Rac/Cdc42 inhibitor MBQ-167 (HY-112842) in vivo, is a selective Rac inhibitor. Rac/Cdc42-IN-1 functions by blocking the GTP-binding activation of Rac1, targeting the autophosphorylation of Thr 423/Thr 402/Thr 436 and Ser 141/Ser 144/Ser 154 in downstream PAK1/2/3, with an inhibitory effect superior to that of MBQ-167. Rac/Cdc42-IN-1 significantly inhibits cell migration, and suppresses tumor growth and distant metastasis to the lung, liver and kidney in HER2+ breast cancer mouse models. Rac/Cdc42-IN-1 can be used for targeted research on metastatic breast cancer .
|
-
- HY-180117
-
|
|
MMP
STAT
Apoptosis
|
Cancer
|
|
MMP-2/9-IN-2 (Compound 6k) is a MMP-2 and MMP-9 inhibitor, with IC50 values of 29.27 and 24.87 μM respectively. MMP-2/9-IN-2 exhibits good selective toxicity against multiple human hepatoma cell lines. MMP-2/9-IN-2 induces cell cycle arrest and apoptosis, significantly inhibits cell migration and invasion. MMP-2/9-IN-2 inhibits the phosphorylation of the STAT3 signaling pathway. MMP-2/9-IN-2 shows strong anti-tumor activity in a nude mouse xenograft model of HepG2 liver cancer cells .
|
-
- HY-185426
-
|
SC-011
|
Antibody-Drug Conjugates (ADCs)
|
Cancer
|
|
ABBV-011 (SC-011) is a SEZ6-targeted, antibody-drug conjugate (ADC). ABBV-011 binds cell surface-expressed SEZ6 by anti-SEZ6 antibody Turmetabart (HY-P991041), triggers ADC-receptor complex internalization into lysosomes, releases Calicheamicin (HY-19609) payload, and mediates cytotoxicity. ABBV-011 induces tumor regression and mediates selective killing of SEZ6-positive cells. ABBV-011 can be used for the research of small cell lung cancer .
|
-
- HY-182253
-
|
|
P-glycoprotein
|
Cancer
|
|
WS-691 is an orally active, selective ABCB1 modulator. WS-691 selectively stabilizes ABCB1 via direct binding to ABCB1. WS-691 inhibits the efflux function of ABCB1 and activates ABCB1 ATPase activity. WS-691 elevates intracellular Paclitaxel (HY-B0015) levels and reduces the required dose of Paclitaxel in cancer cells overexpressing ABCB1. WS-691 increases the sensitivity of colon cancer cells to Paclitaxel .
|
-
- HY-D3234
-
|
|
Fluorescent Dye
|
Others
|
|
Cy-AP is a hypoxia-sensitive near-infrared Fluorescent probe (emission wavelength: 725 nm). Cy-AP exhibits no fluorescence under normoxic microenvironments, while under hypoxic microenvironments, its azo group is reduced, releasing strong near-infrared fluorescence with an emission at 725 nm. Cy-AP enables visualization of intracellular hypoxic status through multiple imaging modalities .
|
-
- HY-181971
-
|
|
Orphan Nuclear Receptor
Androgen Receptor
c-Myc
|
Cancer
|
|
XY25028 is an orally active LRH-1 inhibitor with an IC50 of 0.30 μM. XY25028 inhibits the proliferation of androgen receptor (AR)-positive prostate cancer cells and suppresses the expression of AR target genes KLK2 and KLK3. XY25028 can be used in the research of castration-resistant prostate cancer .
|
-
- HY-181764
-
|
|
Ser/Thr Protease
|
Cancer
|
|
LZL50 is an orally effective human caseinolytic protease P (hClpP) activator with an EC50 of 0.29 μM. LZL50 activates hClpP, a serine protease that mediates mitochondrial quality control by degrading damaged or misfolded mitochondrial proteins. LZL50 exhibits antitumor activity in a breast cancer xenograft mouse model. LZL50 can be used in research related to breast cancer .
|
-
- HY-181780
-
|
|
Trk Receptor
|
Cancer
|
|
TRK-IN-34 is an orally active TRKand TRKC mutant kinase inhibitor, with IC50 values of 0.75 nM and 0.96 nM against TRKA G595R and TRKA G667C, respectively. TRK-IN-34 inhibits the kinase activities of TRKA G595R and TRKA G667C at the functional level. TRK-IN-34 inhibits the proliferation of TRKA-transfected cells, exerts tumor growth-inhibitory effects and achieves partial tumor regression in xenograft models. TRK-IN-34 can be used to study TRK inhibitor-resistant cancers driven by the TRKA G667C mutation .
|
-
- HY-181529
-
|
|
VDAC
PERK
|
Cancer
|
|
NCATS-SM0225 is an endoplasmic reticulum-associated degradation (ERAD) inhibitor and a direct binder of VDAC1, VDAC2 and VDAC3. NCATS-SM0225 exhibits an IC50of 1.02 μM for ERAD and a Kd of 3.13 μM for human VDAC1 binding. NCATS-SM0225 disrupts cellular calcium homeostasis, enhances VDAC1-IP3R coupling and activating PERK. NCATS-SM0225 selectively kills cancer cells, exhibits tumor growth inhibitory effects in melanoma xenograft models. NCATS-SM0225 can be used for research on multiple cancers including melanoma, as well as the molecular mechanisms of ERAD and calcium homeostasis regulation .
|
-
| Cat. No. |
Product Name |
Type |
-
- HY-D3191
-
|
|
Fluorescent Dyes
|
|
L&M-D-MR is a highly specific fluorescent "AND" logic probe with response moieties for leucine aminopeptidase (LAP) and monoamine oxidase (MAO). The coexistence of both LAP and MAO is required for L&M-D-MR to trigger intramolecular cyclization, release fluorophores and activate fluorescence. In the presence of only a single enzyme, L&M-D-MR generates only an extremely weak signal. L&M-D-MR enables bioimaging in living cells and mouse models, and can effectively distinguish different subtypes of liver diseases via blood samples or test strips. L&M-D-MR is widely used in studies related to liver cirrhosis, hepatitis B and drug-induced liver injury .
|
-
- HY-D3234
-
|
|
Fluorescent Dyes
|
|
Cy-AP is a hypoxia-sensitive near-infrared Fluorescent probe (emission wavelength: 725 nm). Cy-AP exhibits no fluorescence under normoxic microenvironments, while under hypoxic microenvironments, its azo group is reduced, releasing strong near-infrared fluorescence with an emission at 725 nm. Cy-AP enables visualization of intracellular hypoxic status through multiple imaging modalities .
|
| Cat. No. |
Product Name |
Type |
-
- HY-145799
-
5A2-SC8
1 Publications Verification
|
Biochemical Assay Reagents
|
|
5A2-SC8 is an ionizable amino lipid in lipid nanoparticles (LNPs) that shows high delivery potential and low in vivo toxicity, enabling efficient delivery of small RNAs such as siRNA and miRNA into tumor cells. 5A2-SC8 LNPs can confer a unique delivery fate of RNA within the liver, thereby changing the therapeutic outcomes in cancer models .
|
| Cat. No. |
Product Name |
Target |
Research Area |
-
- HY-114118
-
Semaglutide
Maximum Cited Publications
35 Publications Verification
|
GLP Receptor
Insulin Receptor
α-synuclein
Apoptosis
p38 MAPK
Autophagy
Bcl-2 Family
|
Neurological Disease
Metabolic Disease
Cancer
|
|
Semaglutide is a long-acting, selective, competitive GLP-1R agonist that can penetrate the blood-brain barrier. After activating GLP-1R, Semaglutide promotes insulin secretion, inhibits gastric emptying and appetite, and at the same time enhances autophagy, inhibits oxidative stress and apoptosis. Semaglutide also regulates mitochondrial function and lipid metabolism (such as reducing de novo lipogenesis in the liver). Semaglutide has activities such as lowering blood sugar, reducing weight, neuroprotection (such as improving motor function in Parkinson's disease models, reducing α-synuclein aggregation) and improving hepatic steatosis. Semaglutide can be used for the study of neurodegenerative diseases and liver diseases such as type 2 diabetes, obesity, Parkinson's disease, metabolic associated fatty liver disease (MASLD), and cancer .
|
-
- HY-114118B
-
|
|
GLP Receptor
Insulin Receptor
α-synuclein
Apoptosis
p38 MAPK
Autophagy
Bcl-2 Family
|
Neurological Disease
Metabolic Disease
Cancer
|
|
Semaglutide acetate is a long-acting, selective, competitive GLP-1R agonist that can penetrate the blood-brain barrier. After activating GLP-1R, Semaglutide acetate promotes insulin secretion, inhibits gastric emptying and appetite, and at the same time enhances autophagy, inhibits oxidative stress and apoptosis. Semaglutide acetate also regulates mitochondrial function and lipid metabolism (such as reducing de novo lipogenesis in the liver). Semaglutide acetate has activities such as lowering blood sugar, reducing weight, neuroprotection (such as improving motor function in Parkinson's disease models, reducing α-synuclein aggregation) and improving hepatic steatosis. Semaglutide acetate can be used for the study of neurodegenerative diseases and liver diseases such as type 2 diabetes, obesity, Parkinson's disease, metabolic associated fatty liver disease (MASLD), and cancer .
|
-
- HY-114118A
-
|
|
GLP Receptor
Insulin Receptor
α-synuclein
Apoptosis
p38 MAPK
Autophagy
Bcl-2 Family
|
Neurological Disease
Metabolic Disease
Cancer
|
|
Semaglutide TFA is a long-acting, selective, competitive GLP-1R agonist that can penetrate the blood-brain barrier. After activating GLP-1R, Semaglutide TFA promotes insulin secretion, inhibits gastric emptying and appetite, and at the same time enhances autophagy, inhibits oxidative stress and apoptosis. Semaglutide TFA also regulates mitochondrial function and lipid metabolism (such as reducing de novo lipogenesis in the liver). Semaglutide TFA has activities such as lowering blood sugar, reducing weight, neuroprotection (such as improving motor function in Parkinson's disease models, reducing α-synuclein aggregation) and improving hepatic steatosis. Semaglutide TFA can be used for the study of neurodegenerative diseases and liver diseases such as type 2 diabetes, obesity, Parkinson's disease, metabolic associated fatty liver disease (MASLD), and cancer .
|
-
- HY-P2322
-
-
- HY-114118CP
-
|
|
GLP Receptor
Insulin Receptor
α-synuclein
Apoptosis
p38 MAPK
Autophagy
Bcl-2 Family
|
Neurological Disease
Metabolic Disease
Cancer
|
|
Semaglutide (crude) is the crude form of Semaglutide (HY-114118). Semaglutide is a long-acting, selective, competitive GLP-1R agonist that can penetrate the blood-brain barrier. After activating GLP-1R, Semaglutide promotes insulin secretion, inhibits gastric emptying and appetite, and at the same time enhances Autophagy, inhibits oxidative stress and Apoptosis. Semaglutide also regulates mitochondrial function and lipid metabolism (such as reducing de novo lipogenesis in the liver). Semaglutide has activities such as lowering blood sugar, reducing weight, neuroprotection (such as improving motor function in Parkinson's disease models, reducing α-synuclein aggregation) and improving hepatic steatosis. Semaglutide can be used for the study of neurodegenerative diseases and liver diseases such as type 2 diabetes, obesity, Parkinson's disease, metabolic associated fatty liver disease (MASLD), and cancer .
|
-
- HY-114118S1
-
|
|
Isotope-Labeled Compounds
GLP Receptor
Insulin Receptor
α-synuclein
Apoptosis
p38 MAPK
Autophagy
Bcl-2 Family
|
Neurological Disease
Metabolic Disease
Cancer
|
|
Semaglutide-d8 tetraTFA is the deuterium labeled Semaglutide (HY-114118). Semaglutide is a long-acting, selective, competitive GLP-1R agonist that can penetrate the blood-brain barrier. After activating GLP-1R, Semaglutide promotes insulin secretion, inhibits gastric emptying and appetite, and at the same time enhances autophagy, inhibits oxidative stress and apoptosis. Semaglutide also regulates mitochondrial function and lipid metabolism (such as reducing de novo lipogenesis in the liver). Semaglutide has activities such as lowering blood sugar, reducing weight, neuroprotection (such as improving motor function in Parkinson's disease models, reducing α-synuclein aggregation) and improving hepatic steatosis. Semaglutide can be used for the study of neurodegenerative diseases and liver diseases such as type 2 diabetes, obesity, Parkinson's disease, metabolic associated fatty liver disease (MASLD), and cancer .
|
-
- HY-114118S
-
|
|
Isotope-Labeled Compounds
GLP Receptor
Insulin Receptor
α-synuclein
Apoptosis
p38 MAPK
Autophagy
Bcl-2 Family
|
Neurological Disease
Metabolic Disease
Cancer
|
|
Semaglutide-d8 is the deuterium labeled Semaglutide (HY-114118). Semaglutide is a long-acting, selective, competitive GLP-1R agonist that can penetrate the blood-brain barrier. After activating GLP-1R, Semaglutide promotes insulin secretion, inhibits gastric emptying and appetite, and at the same time enhances autophagy, inhibits oxidative stress and apoptosis. Semaglutide also regulates mitochondrial function and lipid metabolism (such as reducing de novo lipogenesis in the liver). Semaglutide has activities such as lowering blood sugar, reducing weight, neuroprotection (such as improving motor function in Parkinson's disease models, reducing α-synuclein aggregation) and improving hepatic steatosis. Semaglutide can be used for the study of neurodegenerative diseases and liver diseases such as type 2 diabetes, obesity, Parkinson's disease, metabolic associated fatty liver disease (MASLD), and cancer .
|
-
- HY-P10086
-
|
Human TREM-1(213-221)
|
TREM receptor
TNF Receptor
Interleukin Related
c-Fms
|
Neurological Disease
Inflammation/Immunology
Cancer
|
|
TREM-1 inhibitory peptide GF9 (Human TREM-1 (213-221)) is a TREM-1 inhibitor. TREM-1 inhibitory peptide GF9 blocks the TREM-1 signaling pathway via a ligand-independent mechanism, spontaneously inserts into the cell membrane to dissociate TREM-1 from DAP-12, and functions through the Signaling Chain Homooligomerization (SCHOOL) model. TREM-1 inhibitory peptide GF9 reduces the levels of TNFα, IL-1β, IL-6, and M-CSF. TREM-1 inhibitory peptide GF9 inhibits tumor growth, prolongs the survival of mice with pancreatic cancer models, ameliorates collagen-induced arthritis, and exerts protective effects on bone and cartilage simultaneously. TREM-1 inhibitory peptide GF9 can be used in research related to arthritis, pancreatic cancer, retinopathy, alcoholic liver disease, and liver cancer .
|
-
- HY-159771
-
|
|
FAP
|
Cancer
|
|
FAP6-19 is a fibroblast activation protein (FAP) targeting radioligand with a Kd of 18.2 nM. FAP6-19 selectively delivers therapeutic radioactive nuclides (such as 177Lu) to the tumor site by targeting the overexpressed FAP protein in the tumor microenvironment, achieving precise killing of cancer cells while minimizing radiation damage to healthy tissues. FAP6-19 exhibits extremely high total cellular uptake and good intracellular retention ability in HT1080 cells. After being labeled with 111In, FAP6-19 produced extremely high tumor/kidney and tumor/liver dose ratios in the mouse model with 4T1 tumors. FAP6-19 can be used in the research of solid tumors expressing FAP.
|
-
- HY-P11624
-
|
|
Apoptosis
|
Cancer
|
|
PP-60 is an apoptosis inducer. PP-60 inhibits the proliferation of cancer cells and induces cancer cell apoptosis. PP-60 exerts anti-tumor effects in nude mouse liver tumor models. PP-60 is applicable to research related to cancers such as liver cancer, lung cancer, and prostate cancer .
|
-
- HY-P11618
-
|
|
Glycoprotein VI
|
Cancer
|
|
10P3Me is a Glypican-3 (GPC3)-targeting probe with a Ka of 93.8 nM for the human target. 10P3Me exhibits high binding affinity to GPC3, targets GPC3-positive cells, and serves as an agent for PET imaging. 10P3Me selectively accumulates in GPC3-positive tumor tissues, including subcutaneous xenograft models and orthotopic HepG2-LUC liver cancer models, to achieve precise localization of lesions .
|
-
- HY-114118C
-
|
|
GLP Receptor
Insulin Receptor
α-synuclein
Apoptosis
p38 MAPK
Autophagy
Bcl-2 Family
|
Neurological Disease
Metabolic Disease
Cancer
|
|
Semaglutide sodium is a long-acting, selective, competitive GLP-1R agonist that can penetrate the blood-brain barrier. After activating GLP-1R, Semaglutide sodium promotes insulin secretion, inhibits gastric emptying and appetite, and at the same time enhances autophagy, inhibits oxidative stress and apoptosis. Semaglutide sodium also regulates mitochondrial function and lipid metabolism (such as reducing de novo lipogenesis in the liver). Semaglutide sodium has activities such as lowering blood sugar, reducing weight, neuroprotection (such as improving motor function in Parkinson's disease models, reducing α-synuclein aggregation) and improving hepatic steatosis. Semaglutide sodium can be used for the study of neurodegenerative diseases and liver diseases such as type 2 diabetes, obesity, Parkinson's disease, metabolic associated fatty liver disease (MASLD), and cancer .
|
| Cat. No. |
Product Name |
Target |
Research Area |
Image |
-
- HY-P99667
-
|
OMP-54F28; FZD8-Fc
|
Wnt
|
Cancer
|
|
Ipafricept (OMP-54F28; FZD8-Fc) is a first class recombinant fusion protein with the extracellular part of the human frizzled-8 receptor fused to a human IgG1 Fc fragment that binds Wnt ligands, which blocks Wnt signaling. Ipafricept reduces tumor growth and results in a decrease in both liver and lung metastases combined with Gemcitabine (HY-17026) in pancreatic cancer mouse models. Ipafricept shows solid tumor inhibition activity with well tolerance, such as desmoid tumor, germ cell cancer, ovarian cancer .
|
-
(5)
-
- HY-P991566
-
|
|
CTLA-4
|
Cancer
|
|
KD6001 is a humanized IgG1κ monoclonal antibody, targeting CTLA4. KD6001 significantly disrupts CTLA-4 interactions with CD80 (IC50: 16 ng/mL) and CD86. KD6001 enhances IL-2 and IFNγ expression in PHA-activated human lymphocytes and exhibits potent antitumor effects. KD6001 effectively inhibits tumor growth in MC38, B16, and Hepa1-6 tumor mice model. KD6001 can be used for cancers research, such as advanced melanoma, hepatocellular carcinoma and liver cancer .
|
-
(5)
-
- HY-P991448
-
|
|
Glycoprotein VI
|
Cancer
|
|
MDX-1414 is a human IgG1 monoclonal antibody (mAb) targeting GPC3. MDX-1414 has antitumor activity in the HepG2 xenograft model. MDX-1414 can be used in liver cancer research. Recommended isotype control: Human IgG1 kappa, Isotype Control (HY-P99001) .
|
-
(5)
-
- HY-P992372
-
|
|
Drug Derivative
Transmembrane Glycoprotein
|
Cancer
|
|
huAA98 is a humanized monoclonal antibody and also a CD146 inhibitor. huAA98 binds to human CD146, regulates its activity and inhibits cancer-related angiogenesis, as well as tube formation, motility, proliferation and migration of endothelial cells. huAA98 inhibits angiogenesis in the chick chorioallantoic membrane assay and reduces microvessel density in human tumor xenograft models. huAA98 shows immunoreactivity only to neovascular vessels within tumors and inhibits the growth of tumor xenograft models. huAA98 can be used in studies related to cancer-related angiogenesis, liver cancer, leiomyosarcoma and pancreatic cancer .
|
-
(5)
| Cat. No. |
Product Name |
Category |
Target |
Chemical Structure |
-
- HY-N6871
-
|
|
Infection
Colophony
Classification of Application Fields
Pinaceae
Ketones, Aldehydes, Acids
Metabolic Disease
Plants
Inflammation/Immunology
Disease Research Fields
|
Bacterial
IKK
Ferroptosis
|
Abietic acid, an orally active diterpene isolated from Colophony, displays significant anti-proliferative, anti-inflammatory, anti-obesity effect, bacteriostatic, cell cycle arresting and pro-apoptotic activities. Abietic acid inhibits lipoxygenase activity for allergy. Abietic acid enhances cell migration and tube formation in HUVECs. Abietic acid induces significant angiogenic potential, which is associated with upregulation of extracellular signal-regulated kinase (ERK) and p38 expression. Abietic acid attenuates sepsis-induced lung injury by inhibiting nuclear factor kappa-light-chain-enhancer of activated B cells (NF-κB) pathway to inhibit M1 macrophage polarization. Abietic acid exhibits a positive effect against liver injury by attenuating inflammation and ferroptosis. Abietic acid shows accelerated wound closure in a mouse model of cutaneous wounds. Abietic acid significantly reduces the proliferation and growth of NSCLC cells by IKKβ inhibition.Additionally, Abietic acid ameliorates psoriasis-like inflammation and modulates gut microbiota in mice. Abietic acid is promising for research in non-small-cell lung cancer (NSCLC), liver injury-related deseases and psoriasis .
|
-
-
- HY-N0837
-
|
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-N2424
-
|
2-Phenyl-4-chromone
|
Flavonoids
Classification of Application Fields
Flavones
Metabolic Disease
Endogenous metabolite
Disease Research Fields
Source Classification
|
CDK
Apoptosis
Caspase
|
|
Flavone is an anti-tumor compound that targets cell cycle regulatory proteins (such as cyclin B1) and apoptosis-related factors (such as p21waf1, PIG3). Flavone selectively induces mitochondrial-mediated apoptosis pathways in tumor cells, inhibits cyclin B1 protein expression, upregulates p21waf1, and activates p63/p73 proteins. Flavone has immunomodulatory functions that enhance natural killer cell (NK cell) activity and lymphocyte proliferation. Flavone is used in cancer research, especially for its inhibitory potential in solid tumor models such as esophageal cancer and liver cancer .
|
-
-
- HY-N5112A
-
|
Arnebin 1
|
Quinones
Structural Classification
other families
Classification of Application Fields
Other Diseases
Plants
Naphthalene Quinones
Pteris livida Mett.
Disease Research Fields
|
FGFR
Necroptosis
Apoptosis
CDK
JNK
|
|
β,β-Dimethylacrylalkannin (Arnebin 1) is an orally active FGFR1 inhibitor (IC50=2.5 μM) and the main active component of Lithospermum erythrorhizon. β,β-Dimethylacrylalkannin blocks downstream signaling by binding to the ATP pocket of FGFR1, and regulates the CDK1/Cdc25C pathway and ROS-JNK axis, thereby inducing G2/M phase arrest, necrosis and apoptosis in cancer cells, and inhibiting tumor proliferation. β,β-Dimethylacrylalkannin also acts as a colistin adjuvant to disrupt the cell membrane of Gram-negative bacteria. β,β-Dimethylacrylalkannin exhibits significant tumor-inhibitory effects with no obvious toxicity in PDX models, but chronic exposure to high doses may alter the relative lung/liver weights of rats, while acute exposure to high doses causes responses such as reduced motor activity. β,β-Dimethylacrylalkannin finds wide application in studies related to hepatocellular carcinoma, colorectal cancer, colistin-resistant bacterial infections, hepatitis and psoriasis .
|
-
-
- HY-N2445
-
|
|
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-N4107
-
-
-
- HY-B1341
-
|
Enidrel; SC-4642; NSC 15432
|
Structural Classification
Classification of Application Fields
Endogenous metabolite
Disease Research Fields
Endocrinology
Steroids
Source Classification
|
Endogenous Metabolite
Progesterone Receptor
|
|
Norethynodrel (Enidrel; SC-4642) is an orally active progestogen analog that reduces estrogen-like effects and enhances progestogen-like responses in endometrial stromal cells. Norethynodrel also promotes cell maturation and predecidual cell formation by inducing organelle hyperplasia and glycogen accumulation. Norethynodrel competitively inhibits drug-metabolizing enzymes in rat liver microsomes, thereby prolonging Pentobarbital sleep time, while exhibiting multiple effects including reduced body weight gain, attenuated heart rate elevation and ovulation inhibition. In mouse models, Norethynodrel significantly increases the incidence of mammary adenocarcinoma, cervical cancer and pituitary tumors. Norethynodrel can be used for mechanism research on related diseases such as mammary adenocarcinoma, cervical cancer, ovarian tubular adenoma and pituitary adenoma .
|
-
-
- HY-N0837R
-
|
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-N4107R
-
-
-
- HY-N18091
-
|
|
Structural Classification
Guttiferae
Phenols
Polyphenols
Garcinia mangostana Linn.
Plants
Source Classification
|
Akt
GSK-3
Keap1-Nrf2
NF-κB
Apoptosis
|
|
Tovophyllin A is an orally active xanthonoid compound. Tovophyllin A exerts neuroprotective effects against Parkinson's disease by activating the Akt/GSK3β signaling pathway. Tovophyllin A protects mouse models of liver injury by activating Nrf2. Tovophyllin A exhibits protective anti-inflammatory activity in mouse models of acute lung injury. Tovophyllin A inhibits the activation of NF-κB and subsequent release of pro-inflammatory cytokines. Tovophyllin A reduces apoptotic cell death (Apoptosis). Tovophyllin A has antiplasmodial activity. Tovophyllin A shows cytotoxic activity against lung epithelial cancer cells and breast cancer cells. Tovophyllin A can be used in research related to Parkinson's disease, liver injury, acute lung injury, lung epithelial cancer, and breast cancer .
|
-
| Cat. No. |
Product Name |
Chemical Structure |
-
- HY-114118S3
-
|
|
|
Semaglutide- 13C6, 15N TFA is the 13C- and 15N-labeled Semaglutide TFA (HY-114118A). Semaglutide TFA is a long-acting, selective, competitive GLP-1R agonist that can penetrate the blood-brain barrier. After activating GLP-1R, Semaglutide TFA promotes insulin secretion, inhibits gastric emptying and appetite, and at the same time enhances autophagy, inhibits oxidative stress and apoptosis. Semaglutide TFA also regulates mitochondrial function and lipid metabolism (such as reducing de novo lipogenesis in the liver). Semaglutide TFA has activities such as lowering blood sugar, reducing weight, neuroprotection (such as improving motor function in Parkinson's disease models, reducing α-synuclein aggregation) and improving hepatic steatosis. Semaglutide TFA can be used for the study of neurodegenerative diseases and liver diseases such as type 2 diabetes, obesity, Parkinson's disease, metabolic associated fatty liver disease (MASLD), and cancer .
|
-
-
- HY-114118S1
-
|
|
|
Semaglutide-d8 tetraTFA is the deuterium labeled Semaglutide (HY-114118). Semaglutide is a long-acting, selective, competitive GLP-1R agonist that can penetrate the blood-brain barrier. After activating GLP-1R, Semaglutide promotes insulin secretion, inhibits gastric emptying and appetite, and at the same time enhances autophagy, inhibits oxidative stress and apoptosis. Semaglutide also regulates mitochondrial function and lipid metabolism (such as reducing de novo lipogenesis in the liver). Semaglutide has activities such as lowering blood sugar, reducing weight, neuroprotection (such as improving motor function in Parkinson's disease models, reducing α-synuclein aggregation) and improving hepatic steatosis. Semaglutide can be used for the study of neurodegenerative diseases and liver diseases such as type 2 diabetes, obesity, Parkinson's disease, metabolic associated fatty liver disease (MASLD), and cancer .
|
-
-
- HY-114118S
-
|
|
|
Semaglutide-d8 is the deuterium labeled Semaglutide (HY-114118). Semaglutide is a long-acting, selective, competitive GLP-1R agonist that can penetrate the blood-brain barrier. After activating GLP-1R, Semaglutide promotes insulin secretion, inhibits gastric emptying and appetite, and at the same time enhances autophagy, inhibits oxidative stress and apoptosis. Semaglutide also regulates mitochondrial function and lipid metabolism (such as reducing de novo lipogenesis in the liver). Semaglutide has activities such as lowering blood sugar, reducing weight, neuroprotection (such as improving motor function in Parkinson's disease models, reducing α-synuclein aggregation) and improving hepatic steatosis. Semaglutide can be used for the study of neurodegenerative diseases and liver diseases such as type 2 diabetes, obesity, Parkinson's disease, metabolic associated fatty liver disease (MASLD), and cancer .
|
-
| Cat. No. |
Product Name |
|
Classification |
-
- HY-B1341
-
|
Enidrel; SC-4642; NSC 15432
|
|
Alkynes
|
|
Norethynodrel (Enidrel; SC-4642) is an orally active progestogen analog that reduces estrogen-like effects and enhances progestogen-like responses in endometrial stromal cells. Norethynodrel also promotes cell maturation and predecidual cell formation by inducing organelle hyperplasia and glycogen accumulation. Norethynodrel competitively inhibits drug-metabolizing enzymes in rat liver microsomes, thereby prolonging Pentobarbital sleep time, while exhibiting multiple effects including reduced body weight gain, attenuated heart rate elevation and ovulation inhibition. In mouse models, Norethynodrel significantly increases the incidence of mammary adenocarcinoma, cervical cancer and pituitary tumors. Norethynodrel can be used for mechanism research on related diseases such as mammary adenocarcinoma, cervical cancer, ovarian tubular adenoma and pituitary adenoma .
|
| Cat. No. |
Product Name |
|
Classification |
-
- HY-148559
-
|
|
|
Cationic Lipids
|
|
4A3-SC8 is a modular degradable dendrimer that enables small RNAs to extend survival in an aggressive liver cancer model .
|
-
- HY-145799
-
5A2-SC8
1 Publications Verification
|
|
Cationic Lipids
|
|
5A2-SC8 is an ionizable amino lipid in lipid nanoparticles (LNPs) that shows high delivery potential and low in vivo toxicity, enabling efficient delivery of small RNAs such as siRNA and miRNA into tumor cells. 5A2-SC8 LNPs can confer a unique delivery fate of RNA within the liver, thereby changing the therapeutic outcomes in cancer models .
|
-
- HY-174790
-
|
|
|
mRNA
Reporter Genes
|
|
Firefly Luciferase mRNA is a reporter mRNA that can be transfected into cells to express firefly luciferase protein. Firefly Luciferase mRNA induces cytotoxicity in cancer cells at low concentrations. In cancer cells, the expression level of luciferase shows a non-linear relationship with the dose of Firefly Luciferase mRNA. When combined with the H2S-responsive bioluminescent probe (H-Luc), Firefly Luciferase mRNA enables bioluminescence-based detection of endogenous hydrogen sulfide in non-transgenic NAFLD cell models and NAFLD mouse models. Firefly Luciferase mRNA can be used in studies related to non-alcoholic fatty liver disease .
|
-
- HY-145799A
-
|
|
|
Cationic Lipids
|
|
5A2-SC8 TFA is an ionizable amino lipid in lipid nanoparticles (LNPs) that shows high delivery potential and low in vivo toxicity, enabling efficient delivery of small RNAs such as siRNA and miRNA into tumor cells. 5A2-SC8 TFA LNPs can confer a unique delivery fate of RNA within the liver, thereby changing the therapeutic outcomes in cancer models .
|
-
- HY-169480
-
|
|
|
Cationic Lipids
|
|
Lipid C2 is an ionizable cationic lipid that has been used in the formation of lipid nanoparticles (LNP) for mRNA delivery in vivo. LNPs containing Lipid C2 and encapsulating an mRNA reporter selectively accumulate in the liver and spleen but not the heart, lungs, or kidneys in mice. LNP containing Lipid C2 and encapsulating mRNA encoding the Epstein-Barr virus (EBV) protein latent membrane protein 2 (LMP-2), in combination with an anti-programmed cell death protein 1 (PD-1) antibody, decrease tumor volume and reverse T cell exhaustion, as well as increase the percentage of CD3 +CD8 + central and CD3 +CD8 + effector memory T cells and decrease the percentage of CD3 + T cells expressing Pd-1, in the spleen in a CT26 murine EBV-infected colon cancer model .
|
Your information is safe with us. * Required Fields.
Inquiry Information
- Product Name:
- Cat. No.:
- Quantity:
- MCE Japan Authorized Agent:
2](http://file.medchemexpress.com/product_pic/hy-172225.gif)
