Search Result

Pathways Recommended:	MAPK/ERK Pathway

Results for "

MEK/ERK pathways

" in MedChemExpress (MCE) Product Catalog:

By Targets:	ERK (49) MEK (46) 5-HT Receptor (4) Akt (18) AMPK (2) Amyloid-β (2) Anaplastic lymphoma kinase (ALK) (2) Antibiotic (1) AP-1 (1) Apoptosis (39) Aurora Kinase (1) Autophagy (6) Bacterial (1) Bcl-2 Family (3) Beta-secretase (2) Cadherin (2) Calcium Channel (1) Caspase (5) CDK (3) Cholinesterase (ChE) (2) COX (4) Cyclin G-associated Kinase (GAK) (1) DNA/RNA Synthesis (1) Dopamine Receptor (3) E-Selectin (4) EGFR (1) Endogenous Metabolite (1) Environmental Pollutants (1) FAK (1) Ferroptosis (3) FGFR (1) FLT3 (2) Glutathione S-transferase (1) GPR55 (1) HBV (1) HCV (1) HDAC (1) Heme Oxygenase (HO) (1) Herbicide (2) HIF/HIF Prolyl-Hydroxylase (1) HSP (1) Interleukin Related (5) Isotope-Labeled Compounds (4) JAK (1) JNK (6) Keap1-Nrf2 (1) MAP3K (2) MDM-2/p53 (2) Microtubule/Tubulin (2) Mitochondrial Metabolism (1) MMP (8) Molecular Glues (1) mTOR (2) NF-κB (23) NOD-like Receptor (NLR) (4) P-glycoprotein (1) P2Y Receptor (1) p38 MAPK (10) PARP (3) PD-1/PD-L1 (1) PERK (3) PGC-1α (1) Phosphatase (1) PI3K (14) PKA (1) PKC (4) PPAR (2) PTEN (1) Raf (7) Ras (7) Reactive Oxygen Species (ROS) (8) Reference Standards (8) ROCK (1) SARS-CoV (2) SHP2 (1) Smo (1) SOD (1) Sodium Channel (11) Src (3) STAT (6) TNF Receptor (5) Topoisomerase (1) Trk Receptor (4) VEGFR (5) Wnt (2) Xanthine Oxidase (1) β-catenin (1)
By Research Areas:	Cancer (54) Cardiovascular Disease (18) Infection (6) Inflammation/Immunology (18) Metabolic Disease (12) Neurological Disease (17)

By Targets:

ERK (49)

MEK (46)

5-HT Receptor (4)

Akt (18)

AMPK (2)

Amyloid-β (2)

Anaplastic lymphoma kinase (ALK) (2)

Antibiotic (1)

AP-1 (1)

Apoptosis (39)

Aurora Kinase (1)

Autophagy (6)

Bacterial (1)

Bcl-2 Family (3)

Beta-secretase (2)

Cadherin (2)

Calcium Channel (1)

Caspase (5)

CDK (3)

Cholinesterase (ChE) (2)

COX (4)

Cyclin G-associated Kinase (GAK) (1)

DNA/RNA Synthesis (1)

Dopamine Receptor (3)

E-Selectin (4)

EGFR (1)

Endogenous Metabolite (1)

Environmental Pollutants (1)

FAK (1)

Ferroptosis (3)

FGFR (1)

FLT3 (2)

Glutathione S-transferase (1)

GPR55 (1)

HBV (1)

HCV (1)

HDAC (1)

Heme Oxygenase (HO) (1)

Herbicide (2)

HIF/HIF Prolyl-Hydroxylase (1)

HSP (1)

Interleukin Related (5)

Isotope-Labeled Compounds (4)

JAK (1)

JNK (6)

Keap1-Nrf2 (1)

MAP3K (2)

MDM-2/p53 (2)

Microtubule/Tubulin (2)

Mitochondrial Metabolism (1)

MMP (8)

Molecular Glues (1)

mTOR (2)

NF-κB (23)

NOD-like Receptor (NLR) (4)

P-glycoprotein (1)

P2Y Receptor (1)

p38 MAPK (10)

PARP (3)

PD-1/PD-L1 (1)

PERK (3)

PGC-1α (1)

Phosphatase (1)

PI3K (14)

PKA (1)

PKC (4)

PPAR (2)

PTEN (1)

Raf (7)

Ras (7)

Reactive Oxygen Species (ROS) (8)

Reference Standards (8)

ROCK (1)

SARS-CoV (2)

SHP2 (1)

Smo (1)

SOD (1)

Sodium Channel (11)

Src (3)

STAT (6)

TNF Receptor (5)

Topoisomerase (1)

Trk Receptor (4)

VEGFR (5)

Wnt (2)

Xanthine Oxidase (1)

β-catenin (1)

By Research Areas:

Cancer (54)

Cardiovascular Disease (18)

Infection (6)

Inflammation/Immunology (18)

Metabolic Disease (12)

Neurological Disease (17)

Inhibitors & Agonists

Screening Libraries

Fluorescent Dyes

Biochemical Assay Reagents

Peptides

Natural
Products

Isotope-Labeled Compounds

GMP Molecules

Targets Recommended: ERK MEK ASK1

Cat. No.	Product Name	Target	Research Areas	Chemical Structure

HY-10201

Sorafenib Maximum Cited Publications 283 Publications Verification Bay 43-9006	Raf VEGFR FLT3 Autophagy Apoptosis STAT Akt MMP Cadherin p38 MAPK ERK MEK PI3K PARP Bcl-2 Family	Infection Neurological Disease Metabolic Disease Inflammation/Immunology Cancer
Sorafenib (Bay 43-9006) is a potent oral active multikinase inhibitor. Sorafenib blocks autophosphorylation and activity of receptor tyrosine kinases (VEGFR-2, VEGFR-3) and RAF family kinases, thereby suppressing the *RAF/MEK/ERK* and PI3K/Akt pathways, inhibiting STAT3 phosphorylation, and selectively inhibiting the MAPK pathway in cancer cells. Sorafenib induces cell cycle arrest, autophagy, apoptosis, and PARP cleavage, reduces Bcl-2, Bcl-XL, cyclin D1 levels, and activates Bak and Bax. Sorafenib inhibits tumor growth and metastasis in mouse and rat models. Sorafenib can be used for cancer research, such as colon, breast, non-small-cell lung cancer (NSCLC), ovarian, pancreatic, melanoma, colorectal and hepatocellular carcinoma .

HY-B0185

Lidocaine 20+ Cited Publications Lignocaine	Sodium Channel MEK ERK NF-κB Apoptosis	Cardiovascular Disease Cancer
Lidocaine (Lignocaine) inhibits sodium channels involving complex voltage and using dependence . Lidocaine decreases growth, migration and invasion of gastric carcinoma cells via up-regulating miR-145 expression and further inactivation of *MEK/ERK* and NF-κB signaling pathways. Lidocaine is an amide derivative and has potential for the research of ventricular arrhythmia .

HY-10201A

Sorafenib tosylate Maximum Cited Publications 283 Publications Verification Bay 43-9006 tosylate	Raf VEGFR FLT3 Autophagy Apoptosis STAT Akt MMP Cadherin p38 MAPK ERK MEK PI3K PARP Bcl-2 Family	Infection Neurological Disease Metabolic Disease Inflammation/Immunology Cancer
Sorafenib (Bay 43-9006) tosylate is a potent oral active multikinase inhibitor. Sorafenib blocks autophosphorylation and activity of receptor tyrosine kinases (VEGFR-2, VEGFR-3) and RAF family kinases, thereby suppressing the *RAF/MEK/ERK* and PI3K/Akt pathways, inhibiting STAT3 phosphorylation, and selectively inhibiting the MAPK pathway in cancer cells. Sorafenib tosylate induces cell cycle arrest, autophagy, apoptosis, and PARP cleavage, reduces Bcl-2, Bcl-XL, cyclin D1 levels, and activates Bak and Bax. Sorafenib tosylate inhibits tumor growth and metastasis in mouse and rat models. Sorafenib tosylate can be used for cancer research, such as colon, breast, non-small-cell lung cancer (NSCLC), ovarian, pancreatic, melanoma, colorectal and hepatocellular carcinoma .

HY-B0185A

Lidocaine hydrochloride 20+ Cited Publications Lignocaine hydrochloride	Sodium Channel MEK ERK NF-κB Apoptosis	Cardiovascular Disease Cancer
Lidocaine hydrochloride (Lignocaine hydrochloride) inhibits sodium channels involving complex voltage and using dependence . Lidocaine hydrochloride decreases growth, migration and invasion of gastric carcinoma cells via up-regulating miR-145 expression and further inactivation of *MEK/ERK* and NF-κB signaling pathways. Lidocaine hydrochloride is an amide derivative and a agent to treat ventricular arrhythmia and an effective tumor-inhibitor .

HY-132844

Tunlametinib HL-085	MEK	Cancer
Tunlametinib is a highly selective, orally active MEK1/2 inhibitor (IC₅₀=1.9 nM, MEK1). Tunlametinib blocks the RAS-RAF-MEK-ERK signaling pathway, arrests tumor cell cycle and promotes apoptosis. Tunlametinib potently inhibits the proliferation of RAS/RAF mutant cancer cells (such as BRAF V600E, KRAS G12C mutant cells). Tunlametinib shows synergistic anti-tumor effects with BRAF/KRASG12C/SHP2 inhibitors, Docetaxel (HY-B0011). Tunlametinib can be used to study targeted therapy for RAS/RAF mutation-driven malignancies (such as melanoma, colorectal cancer, and non-small cell lung cancer) .

HY-B0766

Bicyclol SY801	Autophagy Apoptosis HBV HCV HSP Reactive Oxygen Species (ROS) Bcl-2 Family Glutathione S-transferase p38 MAPK NF-κB Microtubule/Tubulin ERK JNK TNF Receptor Interleukin Related CDK Cyclin G-associated Kinase (GAK) mTOR P-glycoprotein Ferroptosis	Infection Inflammation/Immunology Cancer
Bicyclol (SY801) is an orally active derivative of the traditional Chinese medicine Schisandra chinensis, which has antiviral, anti-inflammatory, immunomodulatory, antioxidant, anti-steatosis, anti-fibrotic and anti-tumor activities. Bicyclol regulates the expression of heat shock proteins and plays an anti-apoptosis role in hepatocytes. Bicyclol reduces the activation of NF-κB and the levels of inflammatory factors in hepatocytes infected with hepatitis C virus (HCV) by inhibiting the activation of the ROS-MAPK-NF-κB pathway, and prevents ferroptosis in acute liver injury. Bicyclol can change the expression of Mdr-1, GSH/GST and Bcl-2, increase the intracellular concentration of anticancer drugs, and sensitize drug-resistant cells to anticancer drugs. Bicyclol inhibits the proliferation of human malignant hepatoma cells by regulating the PI3K/AKT pathway and the *Ras/Raf/MEK/ERK* pathway. Bicyclol can be used in the study of chronic hepatitis, acute liver injury, nonalcoholic fatty liver disease, liver fibrosis and hepatocellular carcinoma .

HY-141523

Vociprotafib RMC-4630; SHP2-IN-7	SHP2 Phosphatase	Cancer
Vociprotafib (RMC-4630) is an orally active, selective and potent phosphatase SHP2 inhibitor, which blocks activation of the *RAS-RAF-MEK-ERK* signaling pathway with antitumor activity. Vociprotafib accelerates the time to, and increases the magnitude of, tumor regressions in Osimertinib (HY-15772)-sensitive EGFR-mutant tumors of mice .

HY-N0103

Sophocarpine Maximum Cited Publications 11 Publications Verification	Autophagy Apoptosis NF-κB PI3K Akt MEK ERK PTEN	Cardiovascular Disease Inflammation/Immunology Cancer
Sophocarpine is a PTEN activator and an inhibitor of PI3K/Akt, MEK/ERK, and NF-κB signaling pathways. Sophocarpine upregulates PTEN expression and inhibits PI3K/Akt phosphorylation, arrests tumor cell cycle and induces apoptosis. Sophocarpine inhibits MEK/ERK phosphorylation and VEGF secretion, reducing tumor cell migration. Sophocarpine can also inhibit NF-κB activation and p38 and JNK phosphorylation, reduce the expression of inflammatory factors such as iNOS and COX-2, and activate the Nrf2/HO-1 pathway to reduce oxidative stress. Sophocarpine has anti-tumor, anti-inflammatory, antioxidant and anti-apoptotic effects, and can be used in the research of cancers such as glioblastoma and colorectal cancer, inflammation-related diseases, and Doxorubicin (HY-15142A)-induced cardiac damage .

HY-159127

HRS-4642	Ras MEK PERK Apoptosis	Cancer
HRS-4642 is a high affinity, selective, long-acting, and non-covalent KRAS ^G12D inhibitor with a K_d value of 0.083 nM. HRS-4642 inhibits the binding of KRAS ^G12D to SOS1 or RAF1, thereby blocking the downstream *MEK-ERK* signaling pathway. HRS-4642 promotes Apoptosis. HRS-4642 alone or combined with Carfilzomib (HY-10455) effectively shapes the tumor microenvironment. HRS-4642 has an anti-cancer effect on pancreatic and colorectal cancers carrying the KRAS ^G12D mutation[1][2][3].

HY-119272

EF24 2 Publications Verification	ERK Caspase NF-κB Apoptosis p38 MAPK Reactive Oxygen Species (ROS)	Inflammation/Immunology Cancer
EF24, a curcumin analogue, is an NF-kB inhibitor with great anti-tumor efficacy and oral bioavailability via deactivation of the MAPK/ERK signaling pathway in oral squamous cell carcinoma (OSCC). EF24 is active against melanoma and breast cancer cell lines with GI₅₀ values of 0.7 μM and 0.8 μM, respectively. EF24 induces cell cycle arrest and apoptosis in MDA-MB-231 human breast cancer cells and DU-145 human prostate cancer cells. EF24 increases the levels of activated caspase 3 and 9, and decreases the phosphorylated forms of MEK1 and ERK .

HY-12316

20(S)-Hydroxycholesterol 3 Publications Verification 20α-Hydroxycholesterol	Smo Endogenous Metabolite	Cardiovascular Disease Metabolic Disease Cancer
20(S)-Hydroxycholesterol (20α-Hydroxycholesterol) is an allosteric activator that selectively targets the Smoothened (Smo) of the Hedgehog pathway with an EC₅₀ of ~30 μM (Hedgehog). 20(S)-Hydroxycholesterol binds to the extracellular cysteine-rich domain (CRD) of Smo in a stereoselective manner, activating downstream Gli transcription factors (without inducing transcription of receptor genes in the Wnt pathway). 20(S)-Hydroxycholesterol enhances osteogenic differentiation of bone marrow stromal cells and synergistically activates the *Raf/MEK/ERK* pathway with Simvastatin (HY-17502) to promote bone regeneration. 20(S)-Hydroxycholesterol can be used to study the mechanisms of developmental biology, oncology, bone, and angiogenesis .

HY-N0226A

Epiberberine chloride 4 Publications Verification	Cholinesterase (ChE) Beta-secretase Reactive Oxygen Species (ROS)	Neurological Disease Metabolic Disease
Epiberberine chloride is an alkaloid isolated from Coptis chinensis, acts as a potent AChE and BChE inhibitor, and a non-competitive BACE1 inhibitor, with IC₅₀s of 1.07, 6.03 and 8.55 μM, respectively. Epiberberine chloride has antioxidant activity, with peroxynitrite ONOO ^- scavenging effect (IC₅₀, 16.83 μM), and may protect against Alzheimer disease . Epiberberine chloride inhibits the early stage of differentiation of 3T3-L1 preadipocytes, downregulates the Raf/MEK1/2/ERK1/2 and AMPKα/Akt pathways . Epiberberine has the potential effect in the research of diabetic disease .

HY-N6670

Cefotetan	Antibiotic Raf ERK Ras MEK Bacterial	Infection
Cefotetan is a binding agent that targets human Raf1 kinase inhibitor protein (hRKIP). Cefotetan binds to hRKIP, reduces the binding space between hRKIP and Raf1 kinase, relieves hRKIP's inhibition of the *Ras/Raf1/MEK/ERK* signaling pathway, and enhances *ERK* phosphorylation. Cefotetan can be used to study diseases associated with dysregulated Ras/Raf1/MEK/ERK signaling pathways. Cefotetan is also a broad-spectrum antibacterial agent that disrupts cell wall synthesis by binding to bacterial penicillin-binding proteins (PBPs). It is used to study bacterial infections such as bone, skin, urinary tract, and lower respiratory tract .

HY-B0185B

Lidocaine hydrochloride hydrate 15+ Cited Publications Lignocaine hydrochloride hydrate	Sodium Channel MEK ERK NF-κB Apoptosis	Cardiovascular Disease Cancer
Lidocaine (Lignocaine) hydrochloride hydrate inhibits sodium channels involving complex voltage and using dependence. Lidocaine hydrochloride hydrate decreases growth, migration and invasion of gastric carcinoma cells via up-regulating miR-145 expression and further inactivation of *MEK/ERK* and NF-κB signaling pathways. Lidocaine hydrochloride hydrate is an amide derivative and has potential for the research of ventricular arrhythmia .

HY-N0226

Epiberberine	Cholinesterase (ChE) Beta-secretase	Neurological Disease Metabolic Disease
Epiberberine is an alkaloid isolated from Coptis chinensis, acts as a potent AChE and BChE inhibitor, and a non-competitive BACE1 inhibitor, with IC₅₀s of 1.07, 6.03 and 8.55 μM, respectively. Epiberberine has antioxidant activity, with peroxynitrite ONOO ^- scavenging effect (IC₅₀, 16.83 μM), and can be used for the research of Alzheimer disease . Epiberberine inhibits the early stage of differentiation of 3T3-L1 preadipocytes, downregulates the Raf/MEK1/2/ERK1/2 and AMPKα/Akt pathways . Epiberberinecan be used for the research of diabetic disease .

HY-N9330

Broussoflavonol F	Xanthine Oxidase	Cancer
Broussoflavonol F is a *HER2-RAS-MEK-ERK* signaling pathway modulator and mushroom tyrosinase inhibitor, with an IC₅₀ of 82.3 μM against mushroom tyrosinase. Broussoflavonol F reduces the protein expression levels of RAS, HER2, phosphorylated BRAF, phosphorylated MEK and phosphorylated Erk. It induces cell apoptosis, triggers G₀/G₁ phase cell cycle arrest, and exhibits cytotoxicity against colon cancer cells. Broussoflavonol F is applicable to related research on colon cancer .

HY-128393

Trilinolein 1 Publications Verification	PI3K Akt E-Selectin Apoptosis MMP MEK ERK	Cancer
Trilinolein is an orally active triglyceride that inhibits the PI3K/Akt, *Ras/MEK/ERK* signaling pathways, and MMP-2. Trilinolein can reduce oxidative stress, induce apoptosis, and inhibit cell migration. Trilinolein can be used in the research fields of cardiovascular disease, cerebrovascular disease (such as cerebral ischemia), and non-small cell lung cancer .

HY-14604

Xaliproden hydrochloride 1 Publications Verification SR57746A; SR57746 hydrochloride	5-HT Receptor Dopamine Receptor Trk Receptor PKC ERK Akt JNK	Neurological Disease Metabolic Disease
Xaliproden (SR57746) hydrochloride (SR57746A) is an orally active, highly selective 5-HT1A receptor agonist. Xaliproden hydrochloride activates pertussis toxin-sensitive G protein-coupled signaling cascades, as well as the PKC, *ERK1/ERK2, Akt* and p21 *Ras/MEK-1* pathways. Xaliproden hydrochloride also downregulates the JNK/p66/c-Jun signaling pathway, induces phosphorylation of the shc adaptor protein, regulates extracellular dopamine and 5-HT levels, and induces [ ³⁵S]GTPγS labeling in rat brain structures rich in 5-HT1A receptors. Xaliproden hydrochloride exerts neurotrophic, neuroprotective, renoprotective, anti-inflammatory, anti-apoptotic, anti-fibrotic and analgesic effects. Xaliproden hydrochloride also enhances NGF-induced neurite outgrowth, promotes motor neuron survival, attenuates renal tubular injury and inhibits chemotherapy-induced mechanical allodynia, without activating or altering NGF-induced TrkA receptor activation. Xaliproden hydrochloride can be used in the research of motor neuron disease, diabetic nephropathy, chemotherapy-induced peripheral neuropathy, amyotrophic lateral sclerosis, Alzheimer's disease, acute tonic nociceptive pain, inflammatory pain, depression and anxiety .

HY-145601

Tinengotinib TT 00420	Aurora Kinase FGFR VEGFR	Cancer
Tinengotinib (TT00420) is an orally active, spectrally selective small molecule kinase inhibitor targeting Aurora A/B (IC₅₀=1.2-3.3 nM), FGFR1/2/3 (IC₅₀=1.5-3.5 nM), VEGFRs, JAK1/2 and CSF1R. Tinengotinib blocks Aurora kinase-mediated cell cycle progression (inducing G2/M arrest), inhibits FGFR/JNK-JUN signaling pathway and activates *MEK/ERK*-dependent apoptotic pathway. Tinengotinib has the activity of anti-tumor proliferation, inducing apoptosis, inhibiting angiogenesis and regulating tumor microenvironment. Tinengotinib can be used in the study of triple-negative breast cancer (TNBC), gallbladder cancer and tumor immune microenvironment .

HY-N0442

5-O-Methylvisammioside 4'-O-β-D-Glucosyl-5-O-methylvisamminol	NF-κB p38 MAPK JNK Src TNF Receptor NOD-like Receptor (NLR) Amyloid-β MEK ERK Ferroptosis VEGFR Anaplastic lymphoma kinase (ALK) Reactive Oxygen Species (ROS)	Neurological Disease Metabolic Disease Inflammation/Immunology Cancer
5-O-Methylvisammioside (4'-O-β-D-Glucosyl-5-O-methylvisamminol) is an orally active natural chromone glycoside and multiple biological activities. 5-O-Methylvisammioside inhibits ferroptosis by activating the Nrf2/HO-1 signaling axis. 5-O-Methylvisammioside alleviates intestinal barrier damage by inhibiting the ROS/NF-κB/NLRP3 pathway. 5-O-Methylvisammioside exerts a protective effect against acute liver injury by reducing ALT/AST, decreasing inflammatory infiltration, and inhibiting IκB-α phosphorylation and NF-κB nuclear translocation. 5-O-Methylvisammioside blocks the *HMGB1/RAGE/MEK/ERK* signaling axis to exert anti-tumor and anti-angiogenic effects. 5-O-Methylvisammioside improves depression-like behaviors by inhibiting Src kinase and the NF-κB pathway .

HY-B0185S1

Lidocaine-d10	Sodium Channel MEK ERK NF-κB Apoptosis	Cardiovascular Disease Cancer
Lidocaine-d₁₀ is the deuterium labeled Lidocaine. Lidocaine (Lignocaine) inhibits sodium channels involving complex voltage and using dependence . Lidocaine decreases growth, migration and invasion of gastric carcinoma cells via up-regulating miR-145 expression and further inactivation of MEK/ERK and NF-κB signaling pathways. Lidocaine is an amide derivative and has potential for the research of ventricular arrhythmia .

HY-N0909

Notoginsenoside R2 1 Publications Verification 20(S)-Notoginsenoside R2; Ginsenoside Ng-R2	Apoptosis MEK ERK Reactive Oxygen Species (ROS) Caspase COX β-catenin Src MDM-2/p53 JAK STAT	Neurological Disease Metabolic Disease Inflammation/Immunology
Notoginsenoside R2 (20(S)-Notoginsenoside R2; Ginsenoside Ng-R2) is an orally active notoginsenoside . Notoginsenoside R2 activates P90RSK and Nrf2 via the *MEK1/2-ERK1/2* pathway to inhibit 6-OHDA-induced apoptotic damage in nerve cells. Notoginsenoside R2 upregulates SOX8/β-catenin by reducing miR-27a, thereby suppressing Aβ_25-35-induced neuronal apoptosis and inflammatory responses . Notoginsenoside R2 alleviates lipid accumulation and mitochondrial dysfunction in diabetic nephropathy by inhibiting c-Src. Notoginsenoside R2 alleviates hepatic fibrosis by inducing hepatic stellate cell senescence and inhibiting the inflammatory microenvironment via JAK/STAT3 suppression . Notoginsenoside R2 can be used in research related to Parkinson's disease, Alzheimer's disease, diabetic nephropathy and hepatic fibrosis .

HY-N12445

Quercetin-3'-O-glucoside 1 Publications Verification	Topoisomerase Caspase Apoptosis SOD	Metabolic Disease Inflammation/Immunology Cancer
Quercetin-3'-O-glucoside is an orally active flavonoid glycoside. Quercetin-3'-O-glucoside reduces liver glucose-6-phosphatase activity, alters serum insulin and glucose levels, and regulates the activities of antioxidant enzymes in the liver and kidney. Quercetin-3'-O-glucoside inhibits DNA topoisomerase II, induces S-phase cell cycle arrest and caspase-3-mediated apoptosis in hepatocellular carcinoma cells. Quercetin-3'-O-glucoside selectively inhibits EGFR-mediated signaling pathways targeting AKT, ERK1/2, FAK and MEK1/2. Quercetin-3'-O-glucoside inhibits growth factor-induced migration and invasion in pancreatic cancer cells. Quercetin-3'-O-glucoside exerts free radical scavenging effects. Quercetin-3'-O-glucoside is applicable to research related to pancreatic cancer, diabetes, hepatocellular carcinoma and malignant tumors .

HY-101481

Flurbiprofen axetil	COX Apoptosis MEK ERK PPAR AMPK NF-κB Interleukin Related TNF Receptor STAT Wnt	Neurological Disease Inflammation/Immunology Cancer
Flurbiprofen axetil is a non-selective COX inhibitor and a nonsteroidal anti-inflammatory agent with anti-inflammatory and analgesic effects. Flurbiprofen axetil inhibits basal-like breast cancer metastasis by inhibiting the *MEK/ERK* signaling pathway. Flurbiprofen axetil can promote neuroprotection after focal cerebral ischemia in rats by partially activating PPAR-γ. Flurbiprofen axetil alleviates cerebral ischemia/reperfusion injury by reducing inflammation in a transient global cerebral ischemia/reperfusion rat model. Flurbiprofen axetil can alleviate inflammatory responses and cognitive function in a mild cognitive impairment (MCI) SD rat model through the AMPKα/NF-κB signaling pathway .

HY-B0185AS

Lidocaine-d10 hydrochloride	Sodium Channel MEK ERK NF-κB Apoptosis	Cardiovascular Disease Cancer
Lidocaine-d₁₀ (hydrochloride) is the deuterium labeled Lidocaine hydrochloride. Lidocaine hydrochloride (Lignocaine hydrochloride) inhibits sodium channels involving complex voltage and using dependence . Lidocaine hydrochloride decreases growth, migration and invasion of gastric carcinoma cells via up-regulating miR-145 expression and further inactivation of MEK/ERK and NF-κB signaling pathways. Lidocaine hydrochloride, an amide derivative, has the potential for the research of the ventricular arrhythmia .

HY-120006A

(rel)-AR234960 1 Publications Verification	ERK	Cardiovascular Disease
(rel)-AR234960 is a selective and competitive agonist of the G protein-coupled receptor MAS. (rel)-AR234960 binds to the MAS receptor to activate the downstream *ERK1/2* signaling pathway, inducing the expression of connective tissue growth factor (CTGF) and its downstream collagen subtype genes (such as COL1A1, COL3A1). (rel)-AR234960 promotes collagen synthesis in cardiac fibroblasts through the *MAS-ERK1/2-CTGF* pathway and aggravates extracellular matrix remodeling. (rel)-AR234960's in vitro effect can be blocked by the MAS inverse agonist AR244555 and MEK1 inhibitor. (rel)-AR234960 regulates the expression of cardiac fibrosis-related genes and can be used in the study of heart failure .

HY-B0185R

Lidocaine (Standard) 15+ Cited Publications Lignocaine (Standard)	Reference Standards Sodium Channel MEK ERK NF-κB Apoptosis	Cardiovascular Disease Cancer
Lidocaine (Standard) is the analytical standard of Lidocaine. This product is intended for research and analytical applications. Lidocaine (Lignocaine) inhibits sodium channels involving complex voltage and using dependence . Lidocaine decreases growth, migration and invasion of gastric carcinoma cells via up-regulating miR-145 expression and further inactivation of *MEK/ERK* and NF-κB signaling pathways. Lidocaine is an amide derivative and has potential for the research of ventricular arrhythmia .

HY-B1853

Simetryn	Environmental Pollutants Apoptosis ERK Herbicide MEK	Cardiovascular Disease
Simetryn is a triazine herbicide that exerts teratogenicity. Simetryn inhibits photosynthesis by blocking electron transfer in the chloroplast photosystem II and activates the *MEK/Erk* signaling pathway. Simetryn triggers vascular and developmental abnormalities in zebrafish and tadpoles, suppresses proliferation, enhances apoptosis, and induces malformations. Simetryn serves as a tool to establish a zebrafish model for studying arteriovenous malformations and related pathogenesis. Simetryn controls paddy weeds and can be used for research on developmental and vascular disorders .

HY-N1930

(-)-Hinesol Hinesol	Apoptosis	Cancer
(-)-Hinesol (Hinesol) is a potent anticancer agent. (-)-Hinesol induces apoptosis and cell cycle arrest at G0/G1 phase. (-)-Hinesol downregulates MEK/ERK pathway and NF-κB pathway and mediates theexpression of cyclin D1, Bax and Bcl-2. (-)-Hinesol has the potential for the research of non–small cell lung cancer .

HY-150187

20:4 Lyso PI	GPR55 ERK ROCK Calcium Channel	Neurological Disease
20:4 Lyso PI acts as an activator of GPR55 and RhoA. 20:4 Lyso PI activates the GPR55-RhoA-ROCK pathway, thereby inducing morphological changes, cytoskeleton assembly, cell rounding and stress fiber formation. 20:4 Lyso PI can be used in research related to diseases such as those of the nervous system .

HY-N13009

MO-2097	Raf HIF/HIF Prolyl-Hydroxylase ERK MEK Reactive Oxygen Species (ROS) Apoptosis Caspase	Cancer
MO-2097 is a RAF-1/HIF-1α inhibitor. MO-2097 induces RAF-1 destabilization, leading to a reduction in EMT-associated transcription factors and mesenchymal markers. MO-2097 inhibits HIF-1a protein expression mediated by hnRNPA2B1 under hypoxic and mimetic hypoxia. MO-2097 induces mitochondrial ROS, which leads to apoptosis in cells. MO-2097 effectively suppresses colorectal cancer metastasis by inhibiting the *RAF/MEK/ERK* signaling pathway. MO-2097 attenuates tumor growth in a xenograft HCT116 cell mouse model. MO-2097 can be used for the study of colorectal cancer .

HY-P5522A

TriDAP dihydrochloride 1 Publications Verification L-Ala-γ-D-Glu-meso-diaminopimelic acid dihydrochloride	NOD-like Receptor (NLR) NF-κB MAP3K MEK ERK p38 MAPK Interleukin Related SARS-CoV	Infection Inflammation/Immunology
TriDAP dihydrochloride (L-Ala-γ-D-Glu-meso-diaminopimelic acid dihydrochloride) is a NOD1 agonist with a K_d value of 34.5 μM. TriDAP dihydrochloride enhances the binding of NOD1-RICK, promotes RICK phosphorylation, and activates the NF-κB, TAK1, *MEK/ERK, p38* and interferon response pathways. TriDAP dihydrochloride downregulates Runx2 via increasing ubiquitination and reduces trabecular bone parameters. TriDAP dihydrochloride decreases IκBα levels and increases p65 levels. TriDAP dihydrochloride induces the secretion of proinflammatory mediators IL-8 and prostaglandins, triggers tissue inflammation and innate immune activation, and inhibits SARS-CoV-2 replication in lung epithelial cells. TriDAP dihydrochloride increases the RANKL/OPG ratio in mice, reduces bone mass and enhances osteoclast activity, and inhibits new bone formation by decreasing the mineralization deposition rate in mice. TriDAP dihydrochloride can be used in research related to pulpitis, chronic ulcerative colitis, Crohn's disease and SARS-CoV-2 infection .

HY-N0103A

Sophocarpine monohydrate Maximum Cited Publications 11 Publications Verification	Autophagy Apoptosis NF-κB PI3K Akt MEK ERK	Cardiovascular Disease Inflammation/Immunology Cancer
Sophocarpine monohydrate is a PTEN activator and an inhibitor of PI3K/Akt, MEK/ERK, and NF-κB signaling pathways. Sophocarpine monohydrate upregulates PTEN expression and inhibits PI3K/Akt phosphorylation, arrests tumor cell cycle and induces apoptosis. Sophocarpine monohydrate inhibits MEK/ERK phosphorylation and VEGF secretion, reducing tumor cell migration. Sophocarpine monohydrate can also inhibit NF-κB activation and p38 and JNK phosphorylation, reduce the expression of inflammatory factors such as iNOS and COX-2, and activate the Nrf2/HO-1 pathway to reduce oxidative stress. Sophocarpine monohydrate has anti-tumor, anti-inflammatory, antioxidant and anti-apoptotic effects, and can be used in the research of cancers such as glioblastoma and colorectal cancer, inflammation-related diseases, and Doxorubicin (HY-15142A)-induced cardiac damage .

HY-B0185AS1

Lidocaine-d6 hydrochloride Lignocaine-d6 hydrochloride	Sodium Channel MEK ERK NF-κB Apoptosis	Cardiovascular Disease Cancer
Lidocaine-d₆ (hydrochloride) is deuterium labeled Lidocaine (hydrochloride). Lidocaine hydrochloride (Lignocaine hydrochloride) inhibits sodium channels involving complex voltage and using dependence . Lidocaine hydrochloride decreases growth, migration and invasion of gastric carcinoma cells via up-regulating miR-145 expression and further inactivation of MEK/ERK and NF-κB signaling pathways. Lidocaine hydrochloride is an amide derivative and a agent to treat ventricular arrhythmia and an effective tumor-inhibitor .

HY-174306

MARY1	5-HT Receptor PGC-1α Akt PI3K Ras MEK ERK	Metabolic Disease
MARY1 is a selective 5-HT2BR antagonist with an IC₅₀ of 380 nM and a K_i of 764 nM (human 5-HT2BR). MARY1 induces renal mitochondrial biogenesis (MB) and enhances renal mitochondrial function by increasing mitochondrial respiratory capacity, mitochondrial protein levels, and mitochondrial number in renal proximal tubular cells (RPTCs). MARY1 induces MB through 5-HT2BR and dual PI3K/AKT and RAS/MEK/ERK cell signaling pathways in RPTCs. MARY1 can be used to study renal diseases associated with metabolic and mitochondrial dysfunction .

HY-179133

HDB-1	P2Y Receptor PKA Raf MEK ERK	Inflammation/Immunology
HDB-1 is a selective inhibitor of the P2Y14 receptor (P2Y14R) with an IC₅₀ of 26 pM. HDB-1 shows no significant inhibition on P2Y1R, P2Y2R, P2Y4R, P2Y6R, and P2Y12R. HDB-1 blocks the activation of hepatic stellate cells (HSC) by inhibiting the *PKA/Raf1/MEK/ERK* signaling pathway mediated by P2Y14R, thereby alleviating the core pathological process of liver fibrosis. HDB-1 can be used for the study of liver fibrosis .

HY-P5522

TriDAP L-Ala-γ-D-Glu-meso-diaminopimelic acid	NOD-like Receptor (NLR) NF-κB MAP3K MEK ERK p38 MAPK Interleukin Related SARS-CoV	Infection Inflammation/Immunology
TriDAP (L-Ala-γ-D-Glu-meso-diaminopimelic acid) is a NOD1 agonist with a K_d value of 34.5 μM. TriDAP enhances the binding of NOD1-RICK, promotes RICK phosphorylation, and activates the NF-κB, TAK1, *MEK/ERK, p38* and interferon response pathways. TriDAP downregulates Runx2 via increasing ubiquitination and reduces trabecular bone parameters. TriDAP decreases IκBα levels and increases p65 levels. TriDAP induces the secretion of proinflammatory mediators IL-8 and prostaglandins, triggers tissue inflammation and innate immune activation, and inhibits SARS-CoV-2 replication in lung epithelial cells. TriDAP increases the RANKL/OPG ratio in mice, reduces bone mass and enhances osteoclast activity, and inhibits new bone formation by decreasing the mineralization deposition rate in mice. TriDAP can be used in research related to pulpitis, chronic ulcerative colitis, Crohn's disease and SARS-CoV-2 infection .

HY-107622

(E/Z)-BIX02188	ERK MEK	Metabolic Disease
(E/Z)-BIX02188 is a MEK5/ERK5 pathway inhibitor. (E/Z)-BIX02188 inhibits the catalytic function of purified MEK5 enzyme.(E/Z)-BIX02188 can be used for the role of MEK5/ERK5 pathway in various biological systems .

HY-181067

IK-595	MEK ERK	Cancer
IK-595 is a MEK1/MEK2 inhibitor with high affinity (7.39 nM).IK-595 blocks EGF-induced ERK1/2 phosphorylation in AsPC-1 cells with IC₅₀ value of 0.1 nM. IK-595 has oral activity and blood-brain barrier penetration. IK-595 can be used for the research of Ras/MAPK pathway-altered cancers .

HY-P11130

LQEQ-19 (mouse, rat)	Akt ERK PI3K MEK	Neurological Disease
LQEQ-19 (mouse, rat) is a VGF derived peptide that exerts neuroprotective effects. LQEQ-19 (mouse, rat) activates the PI3K/Akt and *MEK/ERK* signaling pathways by promoting phosphorylation of Akt and *ERK1/2*. LQEQ-19 (mouse, rat) is commonly used in the study of neurological conditions .

HY-117404

LLS30	MEK ERK	Cancer
LLS30 is an anticancer agent. LLS30 suppresses *MEK/ERK* pathway. LLS30 has anti-cancer effects against ovarian cancer, prostate cancer, and malignant peripheral nerve sheath tumors. LLS30 shows synergistic anti-cancer effect with Enzalutamide (HY-70002) or Docetaxel (HY-B0011) .

HY-120412

SKLB188	EGFR Apoptosis	Cancer
SKLB188 is an orally active and potent epidermal growth factor receptor (EGFR) inhibitor (IC₅₀=5 nM). SKLB188 suppresses MEK/Erk and Akt/mTOR signaling pathways to inhibit head and neck squamous cell carcinoma (HNSCC) proliferation and induce caspase-dependent apoptosis. SKLB188 is promising for research of EGFR-overexpressing solid tumors .

HY-157740

XSJ-10	HDAC	Cancer
XSJ-10 is a HDAC inhibitor containing a RAS/RAF protein interfering unit, with IC_{50_s} of 0.05 and 0.04 μM in PANC-1 cells and HT-29 cells. XSJ-10 can effectively induce the apoptosis of cancer cells and suppress the tumor by strongly inhibiting the RAS-RAF-MEK-ERK signaling pathway and the acetylation level of HDAC3 .

HY-B0185S

Lidocaine-d10 N-Oxide	Isotope-Labeled Compounds Sodium Channel MEK ERK NF-κB Apoptosis	Cardiovascular Disease Cancer
N-Oxide Lidocaine-d₁₀ is the deuterium labeled Lidocaine. Lidocaine (Lignocaine) inhibits sodium channels involving complex voltage and using dependence . Lidocaine decreases growth, migration and invasion of gastric carcinoma cells via up-regulating miR-145 expression and further inactivation of MEK/ERK and NF-κB signaling pathways. Lidocaine is an amide derivative and has potential for the research of ventricular arrhythmia .

HY-B0185G

Lidocaine Lignocaine	Apoptosis Sodium Channel MEK ERK NF-κB	Cancer
Lidocaine (GMP) is Lidocaine (HY-B0185) produced by using GMP guidelines. GMP small molecules work appropriately as an auxiliary reagent for cell therapy manufacture. Lidocaine inhibits sodium channels involving complex voltage and using dependence . Lidocaine decreases growth, migration and invasion of gastric carcinoma cells via up-regulating miR-145 expression and further inactivation of *MEK/ERK* and NF-κB signaling pathways. Lidocaine is an amide derivative and has potential for the research of ventricular arrhythmia .

HY-E70684

CDK5/p25NCK Recombinant Human Active Protein Kinase	CDK	Neurological Disease Cancer
CDK5 can be mapped to chromosome 7q36 and its expression is upregulated by the transcription factors Fos and CREB through the MEK/ERK pathway and by δFosB. CDK5 plays a vital role in the central nervous system but has functions in other cell types. CDK5 has recently been implicated in diseases, including the development and progression of cancer and neurodegenerative diseases. CDK5/p25NCK Recombinant Human Active Protein Kinase is an ortholog of CDK5 .

HY-E70685

CDK5/p35NCK Recombinant Human Active Protein Kinase	CDK	Neurological Disease Cancer
CDK5 can be mapped to chromosome 7q36 and its expression is upregulated by the transcription factors Fos and CREB through the MEK/ERK pathway and by δFosB. CDK5 plays a vital role in the central nervous system but has functions in other cell types. CDK5 has recently been implicated in diseases, including the development and progression of cancer and neurodegenerative diseases. CDK5/p35NCK Recombinant Human Active Protein Kinase is an ortholog of CDK5 .

HY-120339

STK899704	Microtubule/Tubulin FAK MEK ERK MMP Caspase PARP Apoptosis MDM-2/p53	Cancer
STK899704 is a tubulin polymerization inhibitor. STK899704 exhibits broad-spectrum inhibitory activity against various cancer cell lines with IC₅₀ values ranging from 0.2 to 1.0 μM. STK899704 disrupts the mitotic spindle structure, inducing G2/M phase cell cycle arrest. STK899704 inhibits the migration ability of HT29 cells by downregulating the FAK-MEK-ERK signaling pathway, thereby suppressing the expression and activity of MMP-2 and MMP-9. STK899704 activates caspase-3/7/8/9, leading to PARP cleavage and inducing apoptosis. STK899704 induces cellular senescence through the p53 pathway. STK899704 can be used in research on skin cancer, lung cancer, colon cancer, and other cancers .

HY-E70747

MEK5 Recombinant Human Active Protein Kinase	MEK	Cancer
MEK5 Recombinant Human Active Protein Kinase is a MAP/ERK kinase. MEK5 is thought to lie in an uncharacterized MAP kinase pathway, because MEK5 does not phosphorylate the ERK/MAP kinase family members ERK1, ERK2, ERK3, JNK/SAPK, or p38/HOG1, nor will Raf-1, c-Mos, or MEKK1 highly phosphorylate it .

HY-164428

AE 51310	PKC	Cancer
AE 51310 is an OPN4 inhibitor. AE 51310 inhibits the activation of PKC and the downstream BRAF/MEK/ERKs signaling pathway. AE 51310 can be used for cancer research, such as NSCLC .

Cat. No.	Product Name

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-B0185G

Lidocaine

Lignocaine

Fluorescent Dyes

Lidocaine (GMP) is Lidocaine (HY-B0185) produced by using GMP guidelines. GMP small molecules work appropriately as an auxiliary reagent for cell therapy manufacture. Lidocaine inhibits sodium channels involving complex voltage and using dependence . Lidocaine decreases growth, migration and invasion of gastric carcinoma cells via up-regulating miR-145 expression and further inactivation of MEK/ERK and NF-κB signaling pathways. Lidocaine is an amide derivative and has potential for the research of ventricular arrhythmia .

Cat. No.	Product Name	Type

HY-B0185G

Lidocaine

Lignocaine

Biochemical Assay Reagents

Cat. No.	Product Name	Target	Research Area

HY-P5522A

TriDAP dihydrochloride 1 Publications Verification L-Ala-γ-D-Glu-meso-diaminopimelic acid dihydrochloride	NOD-like Receptor (NLR) NF-κB MAP3K MEK ERK p38 MAPK Interleukin Related SARS-CoV	Infection Inflammation/Immunology
TriDAP dihydrochloride (L-Ala-γ-D-Glu-meso-diaminopimelic acid dihydrochloride) is a NOD1 agonist with a K_d value of 34.5 μM. TriDAP dihydrochloride enhances the binding of NOD1-RICK, promotes RICK phosphorylation, and activates the NF-κB, TAK1, *MEK/ERK, p38* and interferon response pathways. TriDAP dihydrochloride downregulates Runx2 via increasing ubiquitination and reduces trabecular bone parameters. TriDAP dihydrochloride decreases IκBα levels and increases p65 levels. TriDAP dihydrochloride induces the secretion of proinflammatory mediators IL-8 and prostaglandins, triggers tissue inflammation and innate immune activation, and inhibits SARS-CoV-2 replication in lung epithelial cells. TriDAP dihydrochloride increases the RANKL/OPG ratio in mice, reduces bone mass and enhances osteoclast activity, and inhibits new bone formation by decreasing the mineralization deposition rate in mice. TriDAP dihydrochloride can be used in research related to pulpitis, chronic ulcerative colitis, Crohn's disease and SARS-CoV-2 infection .

HY-P5522

TriDAP L-Ala-γ-D-Glu-meso-diaminopimelic acid	NOD-like Receptor (NLR) NF-κB MAP3K MEK ERK p38 MAPK Interleukin Related SARS-CoV	Infection Inflammation/Immunology
TriDAP (L-Ala-γ-D-Glu-meso-diaminopimelic acid) is a NOD1 agonist with a K_d value of 34.5 μM. TriDAP enhances the binding of NOD1-RICK, promotes RICK phosphorylation, and activates the NF-κB, TAK1, *MEK/ERK, p38* and interferon response pathways. TriDAP downregulates Runx2 via increasing ubiquitination and reduces trabecular bone parameters. TriDAP decreases IκBα levels and increases p65 levels. TriDAP induces the secretion of proinflammatory mediators IL-8 and prostaglandins, triggers tissue inflammation and innate immune activation, and inhibits SARS-CoV-2 replication in lung epithelial cells. TriDAP increases the RANKL/OPG ratio in mice, reduces bone mass and enhances osteoclast activity, and inhibits new bone formation by decreasing the mineralization deposition rate in mice. TriDAP can be used in research related to pulpitis, chronic ulcerative colitis, Crohn's disease and SARS-CoV-2 infection .

HY-P11130

LQEQ-19 (mouse, rat)	Akt ERK PI3K MEK	Neurological Disease
LQEQ-19 (mouse, rat) is a VGF derived peptide that exerts neuroprotective effects. LQEQ-19 (mouse, rat) activates the PI3K/Akt and *MEK/ERK* signaling pathways by promoting phosphorylation of Akt and *ERK1/2*. LQEQ-19 (mouse, rat) is commonly used in the study of neurological conditions .

Cat. No.	Product Name	Category	Target	Chemical Structure

HY-N0103

Sophocarpine Maximum Cited Publications 11 Publications Verification	Infection Alkaloids Piperidine Alkaloids Classification of Application Fields Leguminosae Sophora flavescens Aiton Plants Inflammation/Immunology Disease Research Fields Source Classification	Autophagy Apoptosis NF-κB PI3K Akt MEK ERK PTEN
Sophocarpine is a PTEN activator and an inhibitor of PI3K/Akt, MEK/ERK, and NF-κB signaling pathways. Sophocarpine upregulates PTEN expression and inhibits PI3K/Akt phosphorylation, arrests tumor cell cycle and induces apoptosis. Sophocarpine inhibits MEK/ERK phosphorylation and VEGF secretion, reducing tumor cell migration. Sophocarpine can also inhibit NF-κB activation and p38 and JNK phosphorylation, reduce the expression of inflammatory factors such as iNOS and COX-2, and activate the Nrf2/HO-1 pathway to reduce oxidative stress. Sophocarpine has anti-tumor, anti-inflammatory, antioxidant and anti-apoptotic effects, and can be used in the research of cancers such as glioblastoma and colorectal cancer, inflammation-related diseases, and Doxorubicin (HY-15142A)-induced cardiac damage .

HY-12316

20(S)-Hydroxycholesterol 3 Publications Verification 20α-Hydroxycholesterol	Classification of Application Fields Endogenous metabolite Disease Research Fields Steroids Source Classification Cancer	Smo Endogenous Metabolite
20(S)-Hydroxycholesterol (20α-Hydroxycholesterol) is an allosteric activator that selectively targets the Smoothened (Smo) of the Hedgehog pathway with an EC₅₀ of ~30 μM (Hedgehog). 20(S)-Hydroxycholesterol binds to the extracellular cysteine-rich domain (CRD) of Smo in a stereoselective manner, activating downstream Gli transcription factors (without inducing transcription of receptor genes in the Wnt pathway). 20(S)-Hydroxycholesterol enhances osteogenic differentiation of bone marrow stromal cells and synergistically activates the *Raf/MEK/ERK* pathway with Simvastatin (HY-17502) to promote bone regeneration. 20(S)-Hydroxycholesterol can be used to study the mechanisms of developmental biology, oncology, bone, and angiogenesis .

HY-N0226A

Epiberberine chloride 4 Publications Verification	Alkaloids Neurological Disease Classification of Application Fields Coptis chinensis Franch. Ranunculaceae Metabolic Disease Plants Isoquinoline Alkaloids Disease Research Fields Source Classification	Cholinesterase (ChE) Beta-secretase Reactive Oxygen Species (ROS)
Epiberberine chloride is an alkaloid isolated from Coptis chinensis, acts as a potent AChE and BChE inhibitor, and a non-competitive BACE1 inhibitor, with IC₅₀s of 1.07, 6.03 and 8.55 μM, respectively. Epiberberine chloride has antioxidant activity, with peroxynitrite ONOO ^- scavenging effect (IC₅₀, 16.83 μM), and may protect against Alzheimer disease . Epiberberine chloride inhibits the early stage of differentiation of 3T3-L1 preadipocytes, downregulates the Raf/MEK1/2/ERK1/2 and AMPKα/Akt pathways . Epiberberine has the potential effect in the research of diabetic disease .

HY-N0226

Epiberberine	Alkaloids Structural Classification Coptis chinensis Franch. Ranunculaceae Plants Isoquinoline Alkaloids Source Classification	Cholinesterase (ChE) Beta-secretase
Epiberberine is an alkaloid isolated from Coptis chinensis, acts as a potent AChE and BChE inhibitor, and a non-competitive BACE1 inhibitor, with IC₅₀s of 1.07, 6.03 and 8.55 μM, respectively. Epiberberine has antioxidant activity, with peroxynitrite ONOO ^- scavenging effect (IC₅₀, 16.83 μM), and can be used for the research of Alzheimer disease . Epiberberine inhibits the early stage of differentiation of 3T3-L1 preadipocytes, downregulates the Raf/MEK1/2/ERK1/2 and AMPKα/Akt pathways . Epiberberinecan be used for the research of diabetic disease .

HY-N9330

Broussoflavonol F	Flavonols Structural Classification Flavonoids other families Classification of Application Fields Other Diseases Phenols Polyphenols Plants Disease Research Fields Source Classification	Xanthine Oxidase
Broussoflavonol F is a *HER2-RAS-MEK-ERK* signaling pathway modulator and mushroom tyrosinase inhibitor, with an IC₅₀ of 82.3 μM against mushroom tyrosinase. Broussoflavonol F reduces the protein expression levels of RAS, HER2, phosphorylated BRAF, phosphorylated MEK and phosphorylated Erk. It induces cell apoptosis, triggers G₀/G₁ phase cell cycle arrest, and exhibits cytotoxicity against colon cancer cells. Broussoflavonol F is applicable to related research on colon cancer .

HY-128393

Trilinolein 1 Publications Verification	Natural Products Panax notoginseng (Burkill) F. H. Chen ex C. H. Chow Classification of Application Fields Metabolic Disease Plants Endogenous metabolite Disease Research Fields Araliaceae Source Classification	PI3K Akt E-Selectin Apoptosis MMP MEK ERK
Trilinolein is an orally active triglyceride that inhibits the PI3K/Akt, *Ras/MEK/ERK* signaling pathways, and MMP-2. Trilinolein can reduce oxidative stress, induce apoptosis, and inhibit cell migration. Trilinolein can be used in the research fields of cardiovascular disease, cerebrovascular disease (such as cerebral ischemia), and non-small cell lung cancer .

HY-N0442

5-O-Methylvisammioside 4'-O-β-D-Glucosyl-5-O-methylvisamminol	Structural Classification Ophryosporus axilliflorus Hieron. Classification of Application Fields Ketones, Aldehydes, Acids Other Diseases Umbelliferae Plants Disease Research Fields Source Classification	NF-κB p38 MAPK JNK Src TNF Receptor NOD-like Receptor (NLR) Amyloid-β MEK ERK Ferroptosis VEGFR Anaplastic lymphoma kinase (ALK) Reactive Oxygen Species (ROS)
5-O-Methylvisammioside (4'-O-β-D-Glucosyl-5-O-methylvisamminol) is an orally active natural chromone glycoside and multiple biological activities. 5-O-Methylvisammioside inhibits ferroptosis by activating the Nrf2/HO-1 signaling axis. 5-O-Methylvisammioside alleviates intestinal barrier damage by inhibiting the ROS/NF-κB/NLRP3 pathway. 5-O-Methylvisammioside exerts a protective effect against acute liver injury by reducing ALT/AST, decreasing inflammatory infiltration, and inhibiting IκB-α phosphorylation and NF-κB nuclear translocation. 5-O-Methylvisammioside blocks the *HMGB1/RAGE/MEK/ERK* signaling axis to exert anti-tumor and anti-angiogenic effects. 5-O-Methylvisammioside improves depression-like behaviors by inhibiting Src kinase and the NF-κB pathway .

HY-N0909

Notoginsenoside R2 1 Publications Verification 20(S)-Notoginsenoside R2; Ginsenoside Ng-R2	Triterpenes Structural Classification Panax notoginseng (Burkill) F. H. Chen ex C. H. Chow Neurological Disease Classification of Application Fields Terpenoids Plants Disease Research Fields Araliaceae Source Classification	Apoptosis MEK ERK Reactive Oxygen Species (ROS) Caspase COX β-catenin Src MDM-2/p53 JAK STAT
Notoginsenoside R2 (20(S)-Notoginsenoside R2; Ginsenoside Ng-R2) is an orally active notoginsenoside . Notoginsenoside R2 activates P90RSK and Nrf2 via the *MEK1/2-ERK1/2* pathway to inhibit 6-OHDA-induced apoptotic damage in nerve cells. Notoginsenoside R2 upregulates SOX8/β-catenin by reducing miR-27a, thereby suppressing Aβ_25-35-induced neuronal apoptosis and inflammatory responses . Notoginsenoside R2 alleviates lipid accumulation and mitochondrial dysfunction in diabetic nephropathy by inhibiting c-Src. Notoginsenoside R2 alleviates hepatic fibrosis by inducing hepatic stellate cell senescence and inhibiting the inflammatory microenvironment via JAK/STAT3 suppression . Notoginsenoside R2 can be used in research related to Parkinson's disease, Alzheimer's disease, diabetic nephropathy and hepatic fibrosis .

HY-N12445

Quercetin-3'-O-glucoside 1 Publications Verification	Malvaceae Structural Classification Flavonols Flavonoids Abelmoschus manihot (Linn.) Medicus Plants Source Classification	Topoisomerase Caspase Apoptosis SOD
Quercetin-3'-O-glucoside is an orally active flavonoid glycoside. Quercetin-3'-O-glucoside reduces liver glucose-6-phosphatase activity, alters serum insulin and glucose levels, and regulates the activities of antioxidant enzymes in the liver and kidney. Quercetin-3'-O-glucoside inhibits DNA topoisomerase II, induces S-phase cell cycle arrest and caspase-3-mediated apoptosis in hepatocellular carcinoma cells. Quercetin-3'-O-glucoside selectively inhibits EGFR-mediated signaling pathways targeting AKT, ERK1/2, FAK and MEK1/2. Quercetin-3'-O-glucoside inhibits growth factor-induced migration and invasion in pancreatic cancer cells. Quercetin-3'-O-glucoside exerts free radical scavenging effects. Quercetin-3'-O-glucoside is applicable to research related to pancreatic cancer, diabetes, hepatocellular carcinoma and malignant tumors .

HY-N1930

(-)-Hinesol Hinesol	Structural Classification Terpenoids Sesquiterpenes Plants Compositae Erythrina sigmoidea Hua	Apoptosis
(-)-Hinesol (Hinesol) is a potent anticancer agent. (-)-Hinesol induces apoptosis and cell cycle arrest at G0/G1 phase. (-)-Hinesol downregulates MEK/ERK pathway and NF-κB pathway and mediates theexpression of cyclin D1, Bax and Bcl-2. (-)-Hinesol has the potential for the research of non–small cell lung cancer .

HY-N13009

MO-2097	Phenols Polyphenols Morus alba L. Plants Moraceae Source Classification	Raf HIF/HIF Prolyl-Hydroxylase ERK MEK Reactive Oxygen Species (ROS) Apoptosis Caspase
MO-2097 is a RAF-1/HIF-1α inhibitor. MO-2097 induces RAF-1 destabilization, leading to a reduction in EMT-associated transcription factors and mesenchymal markers. MO-2097 inhibits HIF-1a protein expression mediated by hnRNPA2B1 under hypoxic and mimetic hypoxia. MO-2097 induces mitochondrial ROS, which leads to apoptosis in cells. MO-2097 effectively suppresses colorectal cancer metastasis by inhibiting the *RAF/MEK/ERK* signaling pathway. MO-2097 attenuates tumor growth in a xenograft HCT116 cell mouse model. MO-2097 can be used for the study of colorectal cancer .

HY-N0103A

Sophocarpine monohydrate Maximum Cited Publications 11 Publications Verification	Infection Alkaloids Piperidine Alkaloids Classification of Application Fields Leguminosae Sophora japonica L. Plants Inflammation/Immunology Disease Research Fields Source Classification	Autophagy Apoptosis NF-κB PI3K Akt MEK ERK
Sophocarpine monohydrate is a PTEN activator and an inhibitor of PI3K/Akt, MEK/ERK, and NF-κB signaling pathways. Sophocarpine monohydrate upregulates PTEN expression and inhibits PI3K/Akt phosphorylation, arrests tumor cell cycle and induces apoptosis. Sophocarpine monohydrate inhibits MEK/ERK phosphorylation and VEGF secretion, reducing tumor cell migration. Sophocarpine monohydrate can also inhibit NF-κB activation and p38 and JNK phosphorylation, reduce the expression of inflammatory factors such as iNOS and COX-2, and activate the Nrf2/HO-1 pathway to reduce oxidative stress. Sophocarpine monohydrate has anti-tumor, anti-inflammatory, antioxidant and anti-apoptotic effects, and can be used in the research of cancers such as glioblastoma and colorectal cancer, inflammation-related diseases, and Doxorubicin (HY-15142A)-induced cardiac damage .

HY-N12740

Napyradiomycin B4	Structural Classification Natural Products Microorganisms Source Classification	MEK ERK
Napyradiomycin B4 is a Napyradiomycin derivative, which inhibits the RANKL-induced *MEK-ERK* signaling pathway. Napyradiomycin B4 attenuates osteoclastogenesis and prevents alveolar bone destruction in experimental periodontitis .

HY-N0103R

Sophocarpine (Standard)	Alkaloids Piperidine Alkaloids Structural Classification Leguminosae Sophora flavescens Aiton Plants Source Classification	Reference Standards Autophagy Apoptosis NF-κB PI3K Akt MEK ERK
Sophocarpine (Standard) is the analytical standard of Sophocarpine (HY-N0103). This product is intended for research and analytical applications. Sophocarpine is a PTEN activator and an inhibitor of PI3K/Akt, MEK/ERK, and NF-κB signaling pathways. Sophocarpine upregulates PTEN expression and inhibits PI3K/Akt phosphorylation, arrests tumor cell cycle and induces apoptosis. Sophocarpine inhibits MEK/ERK phosphorylation and VEGF secretion, reducing tumor cell migration. Sophocarpine can also inhibit NF-κB activation and p38 and JNK phosphorylation, reduce the expression of inflammatory factors such as iNOS and COX-2, and activate the Nrf2/HO-1 pathway to reduce oxidative stress. Sophocarpine has anti-tumor, anti-inflammatory, antioxidant and anti-apoptotic effects, and can be used in the research of cancers such as glioblastoma and colorectal cancer, inflammation-related diseases, and Doxorubicin (HY-15142A)-induced cardiac damage .

HY-128393R

Trilinolein (Standard)	Structural Classification Natural Products Panax notoginseng (Burkill) F. H. Chen ex C. H. Chow Plants Endogenous metabolite Araliaceae Source Classification	Reference Standards PI3K Akt E-Selectin Apoptosis MMP MEK ERK
Trilinolein (Standard) is the analytical standard of Trilinolein (HY-128393). This product is intended for research and analytical applications. Trilinolein is an orally active triglyceride that inhibits the PI3K/Akt, *Ras/MEK/ERK* signaling pathways, and MMP-2. Trilinolein can reduce oxidative stress, induce apoptosis, and inhibit cell migration. Trilinolein can be used in the research fields of cardiovascular disease, cerebrovascular disease (such as cerebral ischemia), and non-small cell lung cancer .

HY-N0442R

5-O-Methylvisammioside (Standard) 4'-O-β-D-Glucosyl-5-O-methylvisamminol (Standard)	Structural Classification Ophryosporus axilliflorus Hieron. Ketones, Aldehydes, Acids Umbelliferae Plants Source Classification	Reference Standards p38 MAPK Reactive Oxygen Species (ROS) TNF Receptor MEK ERK VEGFR Src Amyloid-β Anaplastic lymphoma kinase (ALK) NF-κB NOD-like Receptor (NLR) JNK Ferroptosis
5-O-Methylvisammioside (4'-O-β-D-Glucosyl-5-O-methylvisamminol) (Standard) is the analytical standard of 5-O-Methylvisammioside. This product is intended for research and analytical applications. 5-O-Methylvisammioside is an orally active natural chromone glycoside and multiple biological activities. 5-O-Methylvisammioside inhibits ferroptosis by activating the Nrf2/HO-1 signaling axis. 5-O-Methylvisammioside alleviates intestinal barrier damage by inhibiting the ROS/NF-κB/NLRP3 pathway. 5-O-Methylvisammioside exerts a protective effect against acute liver injury by reducing ALT/AST, decreasing inflammatory infiltration, and inhibiting IκB-α phosphorylation and NF-κB nuclear translocation. 5-O-Methylvisammioside blocks the *HMGB1/RAGE/MEK/ERK* signaling axis to exert anti-tumor and anti-angiogenic effects. 5-O-Methylvisammioside improves depression-like behaviors by inhibiting Src kinase and the NF-κB pathway.

HY-N9980

Antcin K	Structural Classification Microorganisms Steroids Source Classification	PI3K Akt NF-κB p38 MAPK AP-1
Antcin K is a selective inhibitor targeting the PI3K/Akt, NF-κB, *MEK1/2-ERK, p38* and AP-1 pathways. Antcin K upregulates IL-10 expression, thereby inhibiting the production of pro-inflammatory factors, blocking monocyte adhesion, reducing tissue damage, and promoting myogenesis. Antcin K has significant anti-inflammatory, anti-damage and tissue protective activities. Antcin K is mainly used in the research of inflammation-related diseases such as periodontitis, rheumatoid arthritis, and skeletal muscle injury .

Cat. No.	Product Name	Chemical Structure

HY-B0185S1

Lidocaine-d10

Lidocaine-d₁₀ is the deuterium labeled Lidocaine. Lidocaine (Lignocaine) inhibits sodium channels involving complex voltage and using dependence . Lidocaine decreases growth, migration and invasion of gastric carcinoma cells via up-regulating miR-145 expression and further inactivation of MEK/ERK and NF-κB signaling pathways. Lidocaine is an amide derivative and has potential for the research of ventricular arrhythmia .

HY-B0185AS

Lidocaine-d10 hydrochloride

Lidocaine-d₁₀ (hydrochloride) is the deuterium labeled Lidocaine hydrochloride. Lidocaine hydrochloride (Lignocaine hydrochloride) inhibits sodium channels involving complex voltage and using dependence . Lidocaine hydrochloride decreases growth, migration and invasion of gastric carcinoma cells via up-regulating miR-145 expression and further inactivation of MEK/ERK and NF-κB signaling pathways. Lidocaine hydrochloride, an amide derivative, has the potential for the research of the ventricular arrhythmia .

HY-B0185AS1

Lidocaine-d6 hydrochloride

Lidocaine-d₆ (hydrochloride) is deuterium labeled Lidocaine (hydrochloride). Lidocaine hydrochloride (Lignocaine hydrochloride) inhibits sodium channels involving complex voltage and using dependence . Lidocaine hydrochloride decreases growth, migration and invasion of gastric carcinoma cells via up-regulating miR-145 expression and further inactivation of MEK/ERK and NF-κB signaling pathways. Lidocaine hydrochloride is an amide derivative and a agent to treat ventricular arrhythmia and an effective tumor-inhibitor .

HY-B0185S

Lidocaine-d10 N-Oxide

N-Oxide Lidocaine-d₁₀ is the deuterium labeled Lidocaine. Lidocaine (Lignocaine) inhibits sodium channels involving complex voltage and using dependence . Lidocaine decreases growth, migration and invasion of gastric carcinoma cells via up-regulating miR-145 expression and further inactivation of MEK/ERK and NF-κB signaling pathways. Lidocaine is an amide derivative and has potential for the research of ventricular arrhythmia .

HY-B0185S2

Lidocaine-d6

Lidocaine-d₆ (Lignocaine-d₆) is deuterium labeled Lidocaine. Lidocaine (Lignocaine) inhibits sodium channels involving complex voltage and using dependence . Lidocaine decreases growth, migration and invasion of gastric carcinoma cells via up-regulating miR-145 expression and further inactivation of MEK/ERK and NF-κB signaling pathways. Lidocaine is an amide derivative and has potential for the research of ventricular arrhythmia .

HY-128393S1

Trilinolein-13C54

Trilinolein- ¹³C₅₄ is the ¹³C-labeled Trilinolein (HY-128393). Trilinolein is an orally active triglyceride that inhibits the PI3K/Akt, Ras/MEK/ERK signaling pathways, and MMP-2. Trilinolein can reduce oxidative stress, induce apoptosis, and inhibit cell migration. Trilinolein can be used in the research fields of cardiovascular disease, cerebrovascular disease (such as cerebral ischemia), and non-small cell lung cancer .

HY-128393S2

Trilinolein-d5

Trilinolein-d₅ is the deuterium labeled Trilinolein (HY-128393). Trilinolein is an orally active triglyceride that inhibits the PI3K/Akt, Ras/MEK/ERK signaling pathways, and MMP-2. Trilinolein can reduce oxidative stress, induce apoptosis, and inhibit cell migration. Trilinolein can be used in the research fields of cardiovascular disease, cerebrovascular disease (such as cerebral ischemia), and non-small cell lung cancer .

Targets Recommended: ERK MEK ASK1

Cat. No.	Product Name	Target	Research Areas	Chemical Structure

HY-B0185G

Lidocaine Lignocaine	Apoptosis Sodium Channel MEK ERK NF-κB	Cancer
Lidocaine (GMP) is Lidocaine (HY-B0185) produced by using GMP guidelines. GMP small molecules work appropriately as an auxiliary reagent for cell therapy manufacture. Lidocaine inhibits sodium channels involving complex voltage and using dependence . Lidocaine decreases growth, migration and invasion of gastric carcinoma cells via up-regulating miR-145 expression and further inactivation of *MEK/ERK* and NF-κB signaling pathways. Lidocaine is an amide derivative and has potential for the research of ventricular arrhythmia .

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MEK/ERK pathways

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