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Pathways Recommended:	MAPK/ERK Pathway Neuronal Signaling JAK/STAT Signaling

Results for "

insulin signalling pathway

" in MedChemExpress (MCE) Product Catalog:

By Targets:	Insulin Receptor (5) Akt (5) AMPK (14) Antibiotic (2) Apoptosis (15) Arrestin (1) Autophagy (11) Bacterial (2) Biochemical Assay Reagents (1) Calcium Channel (1) Claudin (2) Drug Derivative (1) EGFR (1) Endogenous Metabolite (3) ERK (3) Estrogen Receptor/ERR (1) Ferroptosis (1) FGFR (1) Fluorescent Dye (1) FXR (1) G protein-coupled Bile Acid Receptor 1 (1) Glutathione Reductase (GR) (1) HDAC (1) HSP (2) Interleukin Related (1) IPK Superfamily (1) Isotope-Labeled Compounds (4) JAK (2) JNK (1) LXR (1) Microtubule/Tubulin (1) Mitochondrial Metabolism (1) Mitophagy (7) mRNA (1) mTOR (9) NAMPT (1) NF-κB (5) NO Synthase (2) Notch (1) Nuclear Factor of activated T Cells (NFAT) (1) p38 MAPK (2) Parasite (2) PDGFR (1) Phosphatase (2) PI3K (3) PKA (1) Reactive Oxygen Species (ROS) (4) Reference Standards (6) Sirtuin (1) SOD (1) TNF Receptor (2) Transmembrane Glycoprotein (1) VEGFR (1)
By Research Areas:	Cancer (17) Cardiovascular Disease (11) Endocrinology (4) Infection (3) Inflammation/Immunology (11) Metabolic Disease (30) Neurological Disease (6)
Oligonucleotides:	mRNA (1)

Inhibitors & Agonists

Screening Libraries

Biochemical Assay Reagents

Peptides

Inhibitory Antibodies

Natural
Products

Isotope-Labeled Compounds

Oligonucleotides

Targets Recommended: Insulin Receptor Tissue Factor Pathway Inhibitor (TFPI) IDE IGF-1R

Cat. No.	Product Name	Target	Research Areas	Chemical Structure

HY-18686

AS1949490 1 Publications Verification	Phosphatase Akt	Metabolic Disease
AS1949490 is a potent, orally active, selective SHIP2 phosphatase inhibitor with IC₅₀ values of 0.34, 0.62, 13, >50, >50, and >50 µM for Mouse SHIP2, Human SHIP2, Human SHIP1, Human PTEN, Human synaptojanin, and Human myotubularin, respectively. AS1949490 increases the phosphorylation of Akt, glucose consumption and glucose uptake. AS1949490 activates intracellular insulin signalling pathways. AS1949490 can be used for research of diabetes .

HY-109556

Insulin Detemir	Akt ERK	Metabolic Disease
Insulin Detemir is an artificial insulin, shows effect on controlling blood sugar levels. Insulin Detemir stimulates GLP-1 secretion as a consequence of enhanced Gcg expression by a mechanism involving activation of Akt- and/or extracellular signal-regulated kinase (ERK)-dependent-cat and CREB signaling pathways. Insulin Detemir can be used for type 2 diabetes research .

HY-N0628

Kaempferitrin 2 Publications Verification Lespedin; Lespenephryl	Insulin Receptor	Metabolic Disease Endocrinology Cancer
Kaempferitrin is a natural flavonoid, possesses antinociceptive, anti-inflammatory, anti-diabetic, antitumoral and chemopreventive effects, and activates *insulin* signaling pathway.

HY-121006

Biguanide	Mitochondrial Metabolism AMPK Insulin Receptor	Metabolic Disease Cancer
Biguanide is an orally active antihyperglycemic agent. Biguanide inhibits mitochondrial ATP production, activates the LKB1-AMPK signaling pathway, and damages the energy homeostasis. Biguanide enhances *insulin-receptor* activation and downstream signaling. Biguanide exhibits potential in ameliorating the type 2 diabetes and the insulin-associated cancers.

HY-176347S

Alpha Feto Protein, Arg-13C6,15N4, Lys-13C6,15N2	Isotope-Labeled Compounds	Cancer
Alpha Feto Protein, Arg- ¹³C₃₆, ¹⁵N₄, Lys- ¹³C₆, ¹⁵N₂ is the ¹³C- and ¹⁵N-labeled Alpha Feto Protein.

HY-160514

LXQ46	Phosphatase	Metabolic Disease
LXQ46 is an orally active inhibitor for protein tyrosine phosphatase 1B (PTP1B), with an IC₅₀ of 0.190 μM. LXQ46 enhances insulin and leptin signaling pathways in insulin-resistant C2C12. LXQ46 ameliorates type 2 diabetes and increases insulin tolerance in mouse models .

HY-P3255

DA-JC4	Insulin Receptor	Neurological Disease Inflammation/Immunology
DA-JC4 is a dual GLP-1/GIP receptor agonist and can be used for the research of neurological disease and insulin signaling pathways .

HY-N3426

Kazinol B	NO Synthase Akt AMPK	Metabolic Disease
Kazinol B, a prenylated flavan with a dimethyl pyrane ring, is an inhibitor of nitric oxide (NO) production. Kazinol B improves insulin sensitivity by enhancing glucose uptake via the insulin-Akt signaling pathway and AMPK activation. Kazinol B has the potential for diabetes mellitus research .

HY-167931

Cinnamohydrazide	Drug Derivative	Metabolic Disease
Cinnamohydrazide, an unsaturated carboxylic acid derivative, serves as a precursor to aspartame through enzyme-mediated amination to phenylalanine. This compound may offer potential benefits in the prevention and treatment of diabetes by facilitating insulin secretion, enhancing pancreatic β-cell function, inhibiting hepatic gluconeogenesis, promoting glucose uptake, amplifying insulin signaling pathways, delaying carbohydrate digestion and glucose absorption, and reducing protein glycation and insulin fibrillation.

HY-N0628R

Kaempferitrin (Standard) Lespedin (Standard); Lespenephryl (Standard)	Reference Standards Insulin Receptor	Metabolic Disease Endocrinology Cancer
Kaempferitrin (Standard) is the analytical standard of Kaempferitrin. This product is intended for research and analytical applications. Kaempferitrin is a natural flavonoid, possesses antinociceptive, anti-inflammatory, anti-diabetic, antitumoral and chemopreventive effects, and activates insulin signaling pathway.

HY-169566

EGFR-IN-146	EGFR AMPK	Metabolic Disease
EGFR-IN-146 is an EGFR inhibitor that can inhibit the EGFR signaling pathway and improve insulin sensitivity by activating the AMPK pathway, which can effectively reduce blood sugar levels and body weight. EGFR-IN-146 has great potential in the study of diabetes and obesity .

HY-124418

SBI-477 1 Publications Verification	Fluorescent Dye Insulin Receptor LXR Arrestin	Metabolic Disease
SBI-477 is a chemical probe that stimulates *insulin* signaling by deactivating the transcription factor MondoA. SBI-477 can lead to reduced expression of the insulin pathway suppressors thioredoxin-interacting protein (TXNIP) and arrestin domain-containing 4 (ARRDC4). SBI-477 coordinately inhibits triacylglyceride (TAG) synthesis and enhances basal glucose uptake in human skeletal myocytes .

HY-N1419

Vaccarin 1 Publications Verification	AMPK Akt ERK p38 MAPK NF-κB Nuclear Factor of activated T Cells (NFAT) JNK	Cardiovascular Disease Metabolic Disease
Vaccarin is an orally active flavonoid glycoside with multiple biological functions. Vaccarin promotes neovascularization by activating AKT and ERK. Vaccarin activates the AMPK signaling pathway to improve insulin resistance and steatosis. Vaccarin is a MAPK, NF-κB, and NFAT inhibitor, effectively blocking RANKL-induced osteoclastogenesis .

HY-N1419R

Vaccarin (Standard)	Reference Standards AMPK	Metabolic Disease
Vaccarin (Standard) is the analytical standard of Vaccarin. This product is intended for research and analytical applications. Vaccarin is an active flavonoid glycoside associated with various biological functions. Vaccarin significantly promote wound healing and endothelial cells and fibroblasts proliferation in the wound site. Vaccarin ameliorates insulin resistance and steatosis by activating the AMPK signaling pathway .

HY-107544

8-pCPT-2'-O-Me-cAMP-AM	PKA	Metabolic Disease
8-pCPT-2'-O-Me-cAMP-AM is a cyclic AMP analogue, selectively activates Epac-Rap signaling pathway. 8-pCPT-2'-O-Me-cAMP-AM protects renal function by activating Epac from ischemia injury. 8-pCPT-2'-O-Me-cAMP-AM also stimulates insulin secretion by interaction with PKA pathway .

HY-77813

Benzyl isothiocyanate	Bacterial Apoptosis Antibiotic Parasite Autophagy Reactive Oxygen Species (ROS)	Infection Endocrinology Cancer
Benzyl isothiocyanate is an orally available isothiocyanate with bactericidal, anticancer, antiangiogenic and anthelmintic activities. Benzyl isothiocyanate exerts anticancer functions by regulating multiple signaling pathways, including apoptosis, cell proliferation, cell cycle arrest, metastasis, angiogenesis, and autophagy. In addition, Benzyl isothiocyanate can enhance muscle insulin sensitivity to improve obesity-induced hyperglycemia .

HY-174645

Human IL10RA mRNA	mRNA	Metabolic Disease
Human IL10RA mRNA encodes the human interleukin 10 receptor subunit alpha (IL10RA) protein, a receptor for interleukin 10. IL10RA been shown to mediate the immunosuppressive signal of interleukin 10, and thus inhibits the synthesis of proinflammatory cytokines. It is also reported to promote survival of progenitor myeloid cells through the insulin receptor substrate-2/PI 3-kinase/AKT pathway.

HY-W145699

D-myo-Inositol 4-monophosphate	Biochemical Assay Reagents Endogenous Metabolite	Others
D-myo-Inositol 4-mono-phosphate, also known as IMP, is a phosphorylated form of inositol that is commonly found in various metabolic pathways, especially in the biosynthesis of phospholipids and cell signaling molecules. D-myo-Inositol 4-mono-phosphate has unique chemical properties that make it an important intermediate in the production of second messengers, such as inositol triphosphate (IP3) and diacylglycerol (DAG), which signal in cells plays a key role in. D-myo-Inositol 4-mono-phosphate is also used in dietary supplements and pharmaceuticals because of its potential health benefits, including improved insulin sensitivity and cognitive function.

HY-77813R

Benzyl isothiocyanate (Standard)	Reference Standards Bacterial Apoptosis Antibiotic Parasite Autophagy Reactive Oxygen Species (ROS)	Infection Endocrinology Cancer
Benzyl isothiocyanate (Standard) is the analytical standard of Benzyl isothiocyanate. This product is intended for research and analytical applications. Benzyl isothiocyanate is an orally available isothiocyanate with bactericidal, anticancer, antiangiogenic and anthelmintic activities. Benzyl isothiocyanate exerts anticancer functions by regulating multiple signaling pathways, including apoptosis, cell proliferation, cell cycle arrest, metastasis, angiogenesis, and autophagy. In addition, Benzyl isothiocyanate can enhance muscle insulin sensitivity to improve obesity-induced hyperglycemia[1][2][3][4][5][6][7][8][9].

HY-110228

Metformin-d6 hydrochloride 1,1-Dimethylbiguanide-d₆ hydrochloride	AMPK Autophagy Mitophagy Apoptosis mTOR	Cardiovascular Disease Metabolic Disease
Metformin-d₆ hydrochloride is a deuterium labeled Metformin hydrochloride. Metformin hydrochloride inhibits the mitochondrial respiratory chain in the liver, leading to AMPK activation and enhancing insulin sensitivity, and can be used in the study of type 2 diabetes. Metformin hydrochloride also inhibits liver oxidative stress, nitrosative stress, inflammation, and apoptosis caused by liver ischemia/reperfusion injury. In addition, metformin hydrochloride regulates the expression of autophagy-related proteins by activating AMPK and inhibiting the mTOR signaling pathway, thereby inducing tumor cell autophagy and inhibiting the growth of renal cell carcinoma in vitro and in vivo .

HY-N7676

Marein 2 Publications Verification	AMPK HDAC	Cardiovascular Disease Neurological Disease Metabolic Disease
Marein has the neuroprotective effect due to a reduction of damage to mitochondria function and activation of the AMPK signal pathway. Marein improves insulin resistance induced by high glucose in HepG2 cells through CaMKK/AMPK/GLUT1 to promote glucose uptake, through IRS/Akt/GSK-3β to increase glycogen synthesis, and through Akt/FoxO1 to decrease gluconeogenesis. Marein is a HDAC inhibitor with an IC₅₀ of 100 μM. Marein has beneficial antioxidative, antihypertensive, antihyperlipidemic and antidiabetic effects .

HY-N0457

Chicoric acid 1 Publications Verification Cichoric acid; Dicaffeoyltartaric acid	Reactive Oxygen Species (ROS) Apoptosis	Metabolic Disease Inflammation/Immunology
Chicoric acid (Cichoric acid), an orally active dicaffeyltartaric acid, induces reactive oxygen species (ROS) generation. Chicoric acid inhibits cell viability and induces mitochondria-dependent apoptosis in 3T3-L1 preadipocytes through ROS-mediated PI3K/Akt and MAPK signaling pathways. Chicoric acid increases glucose uptake, improves insulin resistance, and attenuates glucosamine-induced inflammation. Chicoric acid has antidiabetic properties and antioxidant, anti-inflammatory effects .

HY-N2515

Ginsenoside Rk1 5+ Cited Publications	NF-κB PI3K JAK Apoptosis	Inflammation/Immunology Cancer
Ginsenoside Rk1 is a unique component created by processing the ginseng plant (mainly Sung Ginseng, SG) at high temperatures . Ginsenoside Rk1 has anti-inflammatory effect, suppresses the activation of Jak2/Stat3 signaling pathway and NF-κB . Ginsenoside Rk1 has anti-tumor effect, antiplatelet aggregation activities, anti-insulin resistance, nephroprotective effect, antimicrobial effect, cognitive function enhancement, lipid accumulation reduction and prevents osteoporosis . Ginsenoside Rk1 induces cell apoptosis by triggering intracellular reactive oxygen species (ROS) generation and blocking PI3K/Akt pathway .

HY-N0910

Notoginsenoside Ft1 1 Publications Verification	PI3K mTOR Akt Apoptosis p38 MAPK ERK Transmembrane Glycoprotein Glutathione Reductase (GR) Estrogen Receptor/ERR Calcium Channel Ferroptosis G protein-coupled Bile Acid Receptor 1 FXR	Cardiovascular Disease Metabolic Disease Cancer
NotoginsenosideFt1 is a saponin found in Panax notoginseng. Notoginsenoside Ft1 inhibits the PI3K/AKT/mTOR signaling pathway, activates the p38 MAPK and ERK1/2 signaling pathways, and increases the proportion of CD8 ⁺ T cells, thereby inducing apoptosis and lysosomal cell death in various cancer cells, and promoting angiogenesis. Notoginsenoside Ft1 causes vasodilation by activating glucocorticoid receptors (GR) and estrogen receptor beta (ERβ) in endothelial cells. Notoginsenoside Ft1 increases intracellular Ca ²⁺ accumulation, reduces cAMP levels by activating a signaling network mediated through P2Y₁₂ receptors, and promotes platelet aggregation, thereby exerting a procoagulant effect. Notoginsenoside Ft1 inhibits ferroptosis (ferroptosis) in renal tubular epithelial cells by activating the TGR5 receptor, thereby demonstrating a renal protective effect. Notoginsenoside Ft1 acts as a TGR5 agonist and an FXR antagonist to combat obesity and insulin resistance .

HY-B0627

Metformin Maximum Cited Publications 164 Publications Verification 1,1-Dimethylbiguanide	AMPK Autophagy Mitophagy Apoptosis mTOR	Cardiovascular Disease Metabolic Disease Inflammation/Immunology Cancer
Metformin (1,1-Dimethylbiguanide) inhibits the mitochondrial respiratory chain in the liver, leading to AMPK activation and enhancing insulin sensitivity, and can be used in the study of type 2 diabetes. Metformin also inhibits liver oxidative stress, nitrosative stress, inflammation, and apoptosis caused by liver ischemia/reperfusion injury. In addition, metformin regulates the expression of autophagy-related proteins by activating AMPK and inhibiting the mTOR signaling pathway, thereby inducing tumor cell autophagy and inhibiting the growth of renal cell carcinoma in vitro and in vivo .

HY-17471A

Metformin hydrochloride Maximum Cited Publications 164 Publications Verification 1,1-Dimethylbiguanide hydrochloride	AMPK Autophagy Mitophagy Apoptosis mTOR	Cardiovascular Disease Metabolic Disease Cancer
Metformin (1,1-Dimethylbiguanide) hydrochloride inhibits the mitochondrial respiratory chain in the liver, leading to AMPK activation and enhancing insulin sensitivity, and can be used in the study of type 2 diabetes. Metformin hydrochloride also inhibits liver oxidative stress, nitrosative stress, inflammation, and apoptosis caused by liver ischemia/reperfusion injury. In addition, metformin hydrochloride regulates the expression of autophagy-related proteins by activating AMPK and inhibiting the mTOR signaling pathway, thereby inducing tumor cell autophagy and inhibiting the growth of renal cell carcinoma in vitro and in vivo .

HY-W012722BS

4-Methyl-2-oxopentanoic acid-d7 sodium α-Ketoisocaproic acid-d₇ sodium	Endogenous Metabolite Isotope-Labeled Compounds	Neurological Disease Metabolic Disease
4-Methyl-2-oxopentanoic acid-d₇ (α-Ketoisocaproic acid-d₇) sodium is the deuterium labeled 4-Methyl-2-oxopentanoic acid (HY-W012722).4-Methyl-2-oxopentanoic acid is a metabolite of L-leucine and is involved in energy metabolism. 4-Methyl-2-oxopentanoic acid increases endoplasmic reticulum stress, promotes lipid accumulation in preadipocytes and insulin resistance by impairing mTOR and autophagy signaling pathways .

HY-B0627A

Metformin (glycinate) 1,1-Dimethylbiguanide (glycinate)	AMPK Autophagy Mitophagy Apoptosis mTOR	Cardiovascular Disease Metabolic Disease Cancer
Metformin (1,1-Dimethylbiguanide) glycinate inhibits the mitochondrial respiratory chain in the liver, leading to AMPK activation and enhancing insulin sensitivity, and can be used in the study of type 2 diabetes. Metformin glycinate also inhibits liver oxidative stress, nitrosative stress, inflammation, and apoptosis caused by liver ischemia/reperfusion injury. In addition, metformin glycinate regulates the expression of autophagy-related proteins by activating AMPK and inhibiting the mTOR signaling pathway, thereby inducing tumor cell autophagy and inhibiting the growth of renal cell carcinoma in vitro and in vivo .

HY-N5027

Oxyberberine 2 Publications Verification Oxyberberin; Berlambine; 8-Oxoberberine	Others	Infection Neurological Disease Inflammation/Immunology
Oxyberberine (Oxyberberin; Berlambine) is an orally effective heme oxygenase HO-1 agonist that can activate antioxidant mechanisms by regulating the PI3K/Akt/AMPK signaling pathway. Oxyberberine induces HO-1 expression, increases SOD and GSH-Px activity, inhibits NF-κB-mediated inflammatory responses, and improves insulin sensitivity and glucose metabolism. Oxyberberine has anti-diabetic, neuroprotective, anti-inflammatory and antioxidant effects, and can be used to study type 2 diabetes, traumatic brain injury (TBI) and inflammatory bowel disease .

HY-N0457R

Chicoric acid (Standard) Cichoric acid (Standard); Dicaffeoyltartaric acid (Standard)	Reference Standards Reactive Oxygen Species (ROS) Apoptosis	Metabolic Disease Inflammation/Immunology
Chicoric acid (Standard) is the analytical standard of Chicoric acid. This product is intended for research and analytical applications. Chicoric acid (Cichoric acid), an orally active dicaffeyltartaric acid, induces reactive oxygen species (ROS) generation. Chicoric acid inhibits cell viability and induces mitochondria-dependent apoptosis in 3T3-L1 preadipocytes through ROS-mediated PI3K/Akt and MAPK signaling pathways. Chicoric acid increases glucose uptake, improves insulin resistance, and attenuates glucosamine-induced inflammation. Chicoric acid has antidiabetic properties and antioxidant, anti-inflammatory effects .

HY-W012722

4-Methyl-2-oxopentanoic acid 1 Publications Verification α-Ketoisocaproic acid	Endogenous Metabolite Autophagy mTOR SOD	Neurological Disease Metabolic Disease
4-Methyl-2-oxopentanoic acid (α-Ketoisocaproic acid) is a metabolite of L-leucine and is involved in energy metabolism. 4-Methyl-2-oxopentanoic acid increases endoplasmic reticulum stress, promotes lipid accumulation in preadipocytes and insulin resistance by impairing mTOR and autophagy signaling pathways. 4-Methyl-2-oxopentanoic acid also causes oxidative damage, leading to cognitive deficits, inhibits α-ketoglutarate dehydrogenase activity, acts as an oxidative phosphorylation uncoupler and metabolic inhibitor. 4-Methyl-2-oxopentanoic acid acts as a nutrient signal and stimulates skeletal muscle protein synthesis. 4-Methyl-2-oxopentanoic acid can be used in the study of maple syrup urine disease .

HY-N2515R

Ginsenoside Rk1 (Standard)	Reference Standards NF-κB PI3K JAK Apoptosis	Inflammation/Immunology Cancer
Ginsenoside Rk1 (Standard) is the analytical standard of Ginsenoside Rk1. This product is intended for research and analytical applications. Ginsenoside Rk1 is a unique component created by processing the ginseng plant (mainly Sung Ginseng, SG) at high temperatures . Ginsenoside Rk1 has anti-inflammatory effect, suppresses the activation of Jak2/Stat3 signaling pathway and NF-κB . Ginsenoside Rk1 has anti-tumor effect, antiplatelet aggregation activities, anti-insulin resistance, nephroprotective effect, antimicrobial effect, cognitive function enhancement, lipid accumulation reduction and prevents osteoporosis . Ginsenoside Rk1 induces cell apoptosis by triggering intracellular reactive oxygen species (ROS) generation and blocking PI3K/Akt pathway .

HY-17471AR

Metformin hydrochloride (Standard) 1,1-Dimethylbiguanide hydrochloride (Standard)	Reference Standards AMPK Autophagy Mitophagy Apoptosis mTOR	Cardiovascular Disease Metabolic Disease Cancer
Metformin hydrochloride (Standard) is the analytical standard of Metformin (hydrochloride). This product is intended for research and analytical applications. Metformin (1,1-Dimethylbiguanide) hydrochloride inhibits the mitochondrial respiratory chain in the liver, leading to AMPK activation and enhancing insulin sensitivity, and can be used in the study of type 2 diabetes. Metformin hydrochloride also inhibits liver oxidative stress, nitrosative stress, inflammation, and apoptosis caused by liver ischemia/reperfusion injury. In addition, metformin hydrochloride regulates the expression of autophagy-related proteins by activating AMPK and inhibiting the mTOR signaling pathway, thereby inducing tumor cell autophagy and inhibiting the growth of renal cell carcinoma in vitro and in vivo .

HY-B0627S

Metformin-d6 1,1-Dimethylbiguanide-d₆	Isotope-Labeled Compounds AMPK Autophagy Mitophagy Apoptosis mTOR	Cardiovascular Disease
Metformin-d₆ (1,1-Dimethylbiguanide-d₆) is a deuterated labeled Metformin (HY-B0627). Metformin inhibits the mitochondrial respiratory chain in the liver, leading to AMPK activation and enhancing insulin sensitivity, and can be used in the study of type 2 diabetes. Metformin also inhibits liver oxidative stress, nitrosative stress, inflammation, and apoptosis caused by liver ischemia/reperfusion injury. In addition, metformin regulates the expression of autophagy-related proteins by activating AMPK and inhibiting the mTOR signaling pathway, thereby inducing tumor cell autophagy and inhibiting the growth of renal cell carcinoma in vitro and in vivo .

HY-B0627S1

Metformin-13C2 hydrochloride 1,1-Dimethylbiguanide-¹³C₂ hydrochloride	Isotope-Labeled Compounds AMPK Autophagy Mitophagy Apoptosis mTOR	Cardiovascular Disease Metabolic Disease Cancer
Metformin- ¹³C₂ (1,1-Dimethylbiguanide- ¹³C₂) hydrochloride is the ¹³C-labeled Metformin hydrochloride (HY-17471A). Metformin hydrochloride inhibits the mitochondrial respiratory chain in the liver, leading to AMPK activation and enhancing insulin sensitivity, and can be used in the study of type 2 diabetes. Metformin hydrochloride also inhibits liver oxidative stress, nitrosative stress, inflammation, and apoptosis caused by liver ischemia/reperfusion injury. In addition, metformin hydrochloride regulates the expression of autophagy-related proteins by activating AMPK and inhibiting the mTOR signaling pathway, thereby inducing tumor cell autophagy and inhibiting the growth of renal cell carcinoma in vitro and in vivo .

HY-N3225

Myricanol	NAMPT Sirtuin Microtubule/Tubulin Apoptosis Autophagy PDGFR NF-κB AMPK	Cardiovascular Disease Neurological Disease Metabolic Disease Inflammation/Immunology Cancer
Myricanol is a diarylheptanoid and a Nampt activator. Myricanol exerts anti-inflammatory effects and alleviates glucocorticoid-induced muscle atrophy by increasing Sirtuin 1 (SIRT1) and PRDX5 activities while regulating inflammatory factors. Myricanol exhibits growth inhibition and induces apoptosis in human lung adenocarcinoma A549 cells. Myricanol promotes autophagy-mediated clearance of microtubule-associated protein tau to exert neuroprotective effects. Myricanol protects cardiovascular function by inhibiting PDGFRβ and NF-κB signaling pathways. Myricanol activates mitochondrial transcription factor A (TFAM) expression to exert anti-renal fibrosis effects. Myricanol improves insulin resistance through AMPK activation .

HY-N2468R

Xylobiose (Standard)	TNF Receptor Claudin HSP	Metabolic Disease Inflammation/Immunology
Xylobiose (1,4-β-D-Xylobiose; 1,4-D-Xylobiose) is an orally active Claudin 2/CLDN2 inhibitor and HSP27 inducer. Xylobiose works by regulating intestinal barrier function and glucose and lipid metabolism-related signaling pathways. Xylobiose inhibits CLDN2 expression to reduce intestinal permeability, induces HSP27 to enhance cell protection, and regulates the miR-122a/miR-33a axis to inhibit liver lipid synthesis and improve insulin resistance. Xylobiose can strengthen intestinal barrier integrity, reduce blood sugar and blood lipid levels, and reduce oxidative stress and inflammatory response. Xylobiose can be used in the study of type 2 diabetes and metabolic syndrome .

HY-N2468

Xylobiose 1,4-β-D-Xylobiose; 1,4-D-Xylobiose	TNF Receptor Claudin HSP	Metabolic Disease Inflammation/Immunology
Xylobiose (1,4-β-D-Xylobiose; 1,4-D-Xylobiose) is an orally active Claudin 2/CLDN2 inhibitor and HSP27 inducer. Xylobiose works by regulating intestinal barrier function and glucose and lipid metabolism-related signaling pathways. Xylobiose inhibits CLDN2 expression to reduce intestinal permeability, induces HSP27 to enhance cell protection, and regulates the miR-122a/miR-33a axis to inhibit liver lipid synthesis and improve insulin resistance. Xylobiose can strengthen intestinal barrier integrity, reduce blood sugar and blood lipid levels, and reduce oxidative stress and inflammatory response. Xylobiose can be used in the study of type 2 diabetes and metabolic syndrome .

HY-110079

TNP	IPK Superfamily	Cancer
TNP is a competitive, reversible inhibitor of IP6K1 and IP3K, with IC₅₀s of 0.55 μM and 10.2 μM for IP6K1 and IP3K, respectively. TNP competitively binds to the ATP binding site of IP6K, inhibits the generation of 5-IP7, and thus relieves the inhibition of 5-IP7 on the AKT signaling pathway. TNP can enhance insulin sensitivity and promote thermogenesis in adipose tissue. TNP cannot effectively pass through the blood-brain barrier and is mainly used in the study of obesity, type 2 diabetes, and metabolic syndrome. However, TNP also inhibits CYP3A4 and may need further optimization[1][2][3].

HY-P990252

Anti-Mouse Delta-like protein 4/DLL4 Antibody (HMD4-2)	Notch Interleukin Related NF-κB VEGFR FGFR NO Synthase	Metabolic Disease Inflammation/Immunology Cancer
Anti-Mouse Delta-like protein 4/DLL4 Antibody (HMD4-2) is an anti-mouse Delta-like protein 4/DLL4 IgG monoclonal antibody. Anti-Mouse Delta-like protein 4/DLL4 Antibody (HMD4-2) can reduce angiogenesis and density by blocking the DLL4-Notch signaling pathway. Anti-Mouse Delta-like protein 4/DLL4 Antibody (HMD4-2) reduces inflammatory response by decreasing NF-κB activity and pro-inflammatory factors (IL-1β, iNOS, IL-6) levels. Anti-Mouse Delta-like protein 4/DLL4 Antibody (HMD4-2) can inhibit Th17 cell differentiation and IL-17A production. Anti-Mouse Delta-like protein 4/DLL4 Antibody (HMD4-2) can reduce macrophage infiltration and alleviate insulin resistance. Anti-Mouse Delta-like protein 4/DLL4 Antibody (HMD4-2) can be used for researches on inflammation, metabolic conditions and cancer such as atherosclerosis, pancreatic cancer and asthma .

Cat. No.	Product Name

HY-L040

Anti-diabetic Compound Library	938 compounds
Diabetes mellitus, usually called diabetes, is a group of metabolic disorders characterized by a high blood sugar level over a prolonged period of time. The most common types are Type I and Type II. Type I diabetes (T1D), also called juvenile onset diabetes mellitus or insulin-dependent diabetes mellitus, is characterized by destruction of the β-cells of the pancreas and insulin is not produced, whereas type II diabetes (T2D), also called non-insulin-dependent diabetes mellitus, is characterized by a progressive impairment of insulin secretion and relative decreased sensitivity of target tissues to the action of this hormone. Type 2 diabetes accounts for the vast majority of all diabetes mellitus. Diabetes of all types can lead to complications in many parts of the body and can increase the overall risk of dying prematurely. Possible complications include kidney failure, leg amputation, vision loss and nerve damage. The pathogenesis of diabetes is complicated, and development of the safe and effective drugs against diabetes is full of challenge. Increasing studies have confirmed that the pathogenesis of diabetes is related to various signaling pathways, such as insulin signaling pathway, AMPK pathway, PPAR regulation and chromatin modification pathways. These signaling pathways have thus become the major source of the promising novel drug targets to treat metabolic diseases and diabetes. MCE Anti-diabetic Compound Library owns a unique collection of 938 compounds, which mainly target SGLT, PPAR, DPP-4, AMPK, Dipeptidyl Peptidase, Glucagon Receptor, etc. This library is a useful tool for discovery anti-diabetes drugs.

Anti-diabetic Compound Library

938 compounds

Diabetes mellitus, usually called diabetes, is a group of metabolic disorders characterized by a high blood sugar level over a prolonged period of time. The most common types are Type I and Type II. Type I diabetes (T1D), also called juvenile onset diabetes mellitus or insulin-dependent diabetes mellitus, is characterized by destruction of the β-cells of the pancreas and insulin is not produced, whereas type II diabetes (T2D), also called non-insulin-dependent diabetes mellitus, is characterized by a progressive impairment of insulin secretion and relative decreased sensitivity of target tissues to the action of this hormone. Type 2 diabetes accounts for the vast majority of all diabetes mellitus. Diabetes of all types can lead to complications in many parts of the body and can increase the overall risk of dying prematurely. Possible complications include kidney failure, leg amputation, vision loss and nerve damage.

The pathogenesis of diabetes is complicated, and development of the safe and effective drugs against diabetes is full of challenge. Increasing studies have confirmed that the pathogenesis of diabetes is related to various signaling pathways, such as insulin signaling pathway, AMPK pathway, PPAR regulation and chromatin modification pathways. These signaling pathways have thus become the major source of the promising novel drug targets to treat metabolic diseases and diabetes.

MCE Anti-diabetic Compound Library owns a unique collection of 938 compounds, which mainly target SGLT, PPAR, DPP-4, AMPK, Dipeptidyl Peptidase, Glucagon Receptor, etc. This library is a useful tool for discovery anti-diabetes drugs.

HY-L101

Anti-Liver Cancer Compound Library	2,448 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 2,448 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.

Anti-Liver Cancer Compound Library

2,448 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 2,448 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-W145699

D-myo-Inositol 4-monophosphate	Biochemical Assay Reagents
D-myo-Inositol 4-mono-phosphate, also known as IMP, is a phosphorylated form of inositol that is commonly found in various metabolic pathways, especially in the biosynthesis of phospholipids and cell signaling molecules. D-myo-Inositol 4-mono-phosphate has unique chemical properties that make it an important intermediate in the production of second messengers, such as inositol triphosphate (IP3) and diacylglycerol (DAG), which signal in cells plays a key role in. D-myo-Inositol 4-mono-phosphate is also used in dietary supplements and pharmaceuticals because of its potential health benefits, including improved insulin sensitivity and cognitive function.

D-myo-Inositol 4-monophosphate

Biochemical Assay Reagents

D-myo-Inositol 4-mono-phosphate, also known as IMP, is a phosphorylated form of inositol that is commonly found in various metabolic pathways, especially in the biosynthesis of phospholipids and cell signaling molecules. D-myo-Inositol 4-mono-phosphate has unique chemical properties that make it an important intermediate in the production of second messengers, such as inositol triphosphate (IP3) and diacylglycerol (DAG), which signal in cells plays a key role in. D-myo-Inositol 4-mono-phosphate is also used in dietary supplements and pharmaceuticals because of its potential health benefits, including improved insulin sensitivity and cognitive function.

Cat. No.	Product Name	Target	Research Area

HY-109556

Insulin Detemir	Akt ERK	Metabolic Disease
Insulin Detemir is an artificial insulin, shows effect on controlling blood sugar levels. Insulin Detemir stimulates GLP-1 secretion as a consequence of enhanced Gcg expression by a mechanism involving activation of Akt- and/or extracellular signal-regulated kinase (ERK)-dependent-cat and CREB signaling pathways. Insulin Detemir can be used for type 2 diabetes research .

HY-P3255

DA-JC4	Insulin Receptor	Neurological Disease Inflammation/Immunology
DA-JC4 is a dual GLP-1/GIP receptor agonist and can be used for the research of neurological disease and insulin signaling pathways .

Cat. No.	Product Name	Target	Research Area

HY-P990252

Anti-Mouse Delta-like protein 4/DLL4 Antibody (HMD4-2)	Notch Interleukin Related NF-κB VEGFR FGFR NO Synthase	Metabolic Disease Inflammation/Immunology Cancer
Anti-Mouse Delta-like protein 4/DLL4 Antibody (HMD4-2) is an anti-mouse Delta-like protein 4/DLL4 IgG monoclonal antibody. Anti-Mouse Delta-like protein 4/DLL4 Antibody (HMD4-2) can reduce angiogenesis and density by blocking the DLL4-Notch signaling pathway. Anti-Mouse Delta-like protein 4/DLL4 Antibody (HMD4-2) reduces inflammatory response by decreasing NF-κB activity and pro-inflammatory factors (IL-1β, iNOS, IL-6) levels. Anti-Mouse Delta-like protein 4/DLL4 Antibody (HMD4-2) can inhibit Th17 cell differentiation and IL-17A production. Anti-Mouse Delta-like protein 4/DLL4 Antibody (HMD4-2) can reduce macrophage infiltration and alleviate insulin resistance. Anti-Mouse Delta-like protein 4/DLL4 Antibody (HMD4-2) can be used for researches on inflammation, metabolic conditions and cancer such as atherosclerosis, pancreatic cancer and asthma .

Cat. No.	Product Name	Category	Target	Chemical Structure

HY-N0628

Kaempferitrin 2 Publications Verification Lespedin; Lespenephryl	Flavonols Structural Classification Classification of Application Fields Source classification Bauhinia × blakeana Dunn Metabolic Disease Plants Flavonoids Leguminosae Phenols Polyphenols Disease Research Fields Endocrinology	Insulin Receptor
Kaempferitrin is a natural flavonoid, possesses antinociceptive, anti-inflammatory, anti-diabetic, antitumoral and chemopreventive effects, and activates *insulin* signaling pathway.

HY-N1419

Vaccarin 1 Publications Verification	Structural Classification Flavonoids other families Classification of Application Fields Flavones Source classification Phenols Polyphenols Metabolic Disease Plants Disease Research Fields	AMPK Akt ERK p38 MAPK NF-κB Nuclear Factor of activated T Cells (NFAT) JNK
Vaccarin is an orally active flavonoid glycoside with multiple biological functions. Vaccarin promotes neovascularization by activating AKT and ERK. Vaccarin activates the AMPK signaling pathway to improve insulin resistance and steatosis. Vaccarin is a MAPK, NF-κB, and NFAT inhibitor, effectively blocking RANKL-induced osteoclastogenesis .

HY-77813

Benzyl isothiocyanate	Structural Classification Natural Products Classification of Application Fields Source classification Opiliaceae Plants Disease Research Fields Endocrinology Salvadora persica	Bacterial Apoptosis Antibiotic Parasite Autophagy Reactive Oxygen Species (ROS)
Benzyl isothiocyanate is an orally available isothiocyanate with bactericidal, anticancer, antiangiogenic and anthelmintic activities. Benzyl isothiocyanate exerts anticancer functions by regulating multiple signaling pathways, including apoptosis, cell proliferation, cell cycle arrest, metastasis, angiogenesis, and autophagy. In addition, Benzyl isothiocyanate can enhance muscle insulin sensitivity to improve obesity-induced hyperglycemia .

HY-N7676

Marein 2 Publications Verification	Cardiovascular Disease Structural Classification Chalcones Flavonoids other families Neurological Disease Classification of Application Fields Source classification Phenols Polyphenols Plants Disease Research Fields	AMPK HDAC
Marein has the neuroprotective effect due to a reduction of damage to mitochondria function and activation of the AMPK signal pathway. Marein improves insulin resistance induced by high glucose in HepG2 cells through CaMKK/AMPK/GLUT1 to promote glucose uptake, through IRS/Akt/GSK-3β to increase glycogen synthesis, and through Akt/FoxO1 to decrease gluconeogenesis. Marein is a HDAC inhibitor with an IC₅₀ of 100 μM. Marein has beneficial antioxidative, antihypertensive, antihyperlipidemic and antidiabetic effects .

HY-N0457

Chicoric acid 1 Publications Verification Cichoric acid; Dicaffeoyltartaric acid	Structural Classification Classification of Application Fields Anti-aging Source classification Other Phenylpropanoids Metabolic Disease Plants other families Phenols Polyphenols Phenylpropanoids Inflammation/Immunology Disease Research Fields	Reactive Oxygen Species (ROS) Apoptosis
Chicoric acid (Cichoric acid), an orally active dicaffeyltartaric acid, induces reactive oxygen species (ROS) generation. Chicoric acid inhibits cell viability and induces mitochondria-dependent apoptosis in 3T3-L1 preadipocytes through ROS-mediated PI3K/Akt and MAPK signaling pathways. Chicoric acid increases glucose uptake, improves insulin resistance, and attenuates glucosamine-induced inflammation. Chicoric acid has antidiabetic properties and antioxidant, anti-inflammatory effects .

HY-N3426

Kazinol B	Structural Classification other families Classification of Application Fields Source classification Phenols Polyphenols Metabolic Disease Plants Disease Research Fields	NO Synthase Akt AMPK
Kazinol B, a prenylated flavan with a dimethyl pyrane ring, is an inhibitor of nitric oxide (NO) production. Kazinol B improves insulin sensitivity by enhancing glucose uptake via the insulin-Akt signaling pathway and AMPK activation. Kazinol B has the potential for diabetes mellitus research .

HY-N0628R

Kaempferitrin (Standard) Lespedin (Standard); Lespenephryl (Standard)	Flavonols Structural Classification Flavonoids Leguminosae Source classification Bauhinia × blakeana Dunn Phenols Polyphenols Plants	Reference Standards Insulin Receptor
Kaempferitrin (Standard) is the analytical standard of Kaempferitrin. This product is intended for research and analytical applications. Kaempferitrin is a natural flavonoid, possesses antinociceptive, anti-inflammatory, anti-diabetic, antitumoral and chemopreventive effects, and activates insulin signaling pathway.

HY-N1419R

Vaccarin (Standard)	Structural Classification Flavonoids other families Flavones Source classification Phenols Polyphenols Plants	Reference Standards AMPK
Vaccarin (Standard) is the analytical standard of Vaccarin. This product is intended for research and analytical applications. Vaccarin is an active flavonoid glycoside associated with various biological functions. Vaccarin significantly promote wound healing and endothelial cells and fibroblasts proliferation in the wound site. Vaccarin ameliorates insulin resistance and steatosis by activating the AMPK signaling pathway .

HY-W145699

D-myo-Inositol 4-monophosphate	Structural Classification Natural Products Classification of Application Fields Source classification Other Diseases Endogenous metabolite Disease Research Fields	Biochemical Assay Reagents Endogenous Metabolite
D-myo-Inositol 4-mono-phosphate, also known as IMP, is a phosphorylated form of inositol that is commonly found in various metabolic pathways, especially in the biosynthesis of phospholipids and cell signaling molecules. D-myo-Inositol 4-mono-phosphate has unique chemical properties that make it an important intermediate in the production of second messengers, such as inositol triphosphate (IP3) and diacylglycerol (DAG), which signal in cells plays a key role in. D-myo-Inositol 4-mono-phosphate is also used in dietary supplements and pharmaceuticals because of its potential health benefits, including improved insulin sensitivity and cognitive function.

HY-77813R

Benzyl isothiocyanate (Standard)	Structural Classification Natural Products Source classification Opiliaceae Plants Salvadora persica	Reference Standards Bacterial Apoptosis Antibiotic Parasite Autophagy Reactive Oxygen Species (ROS)
Benzyl isothiocyanate (Standard) is the analytical standard of Benzyl isothiocyanate. This product is intended for research and analytical applications. Benzyl isothiocyanate is an orally available isothiocyanate with bactericidal, anticancer, antiangiogenic and anthelmintic activities. Benzyl isothiocyanate exerts anticancer functions by regulating multiple signaling pathways, including apoptosis, cell proliferation, cell cycle arrest, metastasis, angiogenesis, and autophagy. In addition, Benzyl isothiocyanate can enhance muscle insulin sensitivity to improve obesity-induced hyperglycemia[1][2][3][4][5][6][7][8][9].

HY-N2515

Ginsenoside Rk1 Maximum Cited Publications 8 Publications Verification	Panax ginseng C. A. Meyer Triterpenes Structural Classification Classification of Application Fields Terpenoids Source classification Plants Inflammation/Immunology Disease Research Fields Araliaceae	NF-κB PI3K JAK Apoptosis
Ginsenoside Rk1 is a unique component created by processing the ginseng plant (mainly Sung Ginseng, SG) at high temperatures . Ginsenoside Rk1 has anti-inflammatory effect, suppresses the activation of Jak2/Stat3 signaling pathway and NF-κB . Ginsenoside Rk1 has anti-tumor effect, antiplatelet aggregation activities, anti-insulin resistance, nephroprotective effect, antimicrobial effect, cognitive function enhancement, lipid accumulation reduction and prevents osteoporosis . Ginsenoside Rk1 induces cell apoptosis by triggering intracellular reactive oxygen species (ROS) generation and blocking PI3K/Akt pathway .

HY-N0910

Notoginsenoside Ft1 1 Publications Verification	Triterpenes Structural Classification Panax notoginseng (Burkill) F. H. Chen ex C. H. Chow Classification of Application Fields Terpenoids Source classification Other Diseases Plants Disease Research Fields Araliaceae	PI3K mTOR Akt Apoptosis p38 MAPK ERK Transmembrane Glycoprotein Glutathione Reductase (GR) Estrogen Receptor/ERR Calcium Channel Ferroptosis G protein-coupled Bile Acid Receptor 1 FXR
NotoginsenosideFt1 is a saponin found in Panax notoginseng. Notoginsenoside Ft1 inhibits the PI3K/AKT/mTOR signaling pathway, activates the p38 MAPK and ERK1/2 signaling pathways, and increases the proportion of CD8 ⁺ T cells, thereby inducing apoptosis and lysosomal cell death in various cancer cells, and promoting angiogenesis. Notoginsenoside Ft1 causes vasodilation by activating glucocorticoid receptors (GR) and estrogen receptor beta (ERβ) in endothelial cells. Notoginsenoside Ft1 increases intracellular Ca ²⁺ accumulation, reduces cAMP levels by activating a signaling network mediated through P2Y₁₂ receptors, and promotes platelet aggregation, thereby exerting a procoagulant effect. Notoginsenoside Ft1 inhibits ferroptosis (ferroptosis) in renal tubular epithelial cells by activating the TGR5 receptor, thereby demonstrating a renal protective effect. Notoginsenoside Ft1 acts as a TGR5 agonist and an FXR antagonist to combat obesity and insulin resistance .

HY-N5027

Oxyberberine 2 Publications Verification Oxyberberin; Berlambine; 8-Oxoberberine	Infection Structural Classification Phellodendron amurense Rupr. Stilbenes Classification of Application Fields Source classification Rutaceae Plants Disease Research Fields	Others
Oxyberberine (Oxyberberin; Berlambine) is an orally effective heme oxygenase HO-1 agonist that can activate antioxidant mechanisms by regulating the PI3K/Akt/AMPK signaling pathway. Oxyberberine induces HO-1 expression, increases SOD and GSH-Px activity, inhibits NF-κB-mediated inflammatory responses, and improves insulin sensitivity and glucose metabolism. Oxyberberine has anti-diabetic, neuroprotective, anti-inflammatory and antioxidant effects, and can be used to study type 2 diabetes, traumatic brain injury (TBI) and inflammatory bowel disease .

HY-N0457R

Chicoric acid (Standard) Cichoric acid (Standard); Dicaffeoyltartaric acid (Standard)	Structural Classification other families Source classification Other Phenylpropanoids Phenols Polyphenols Phenylpropanoids Plants	Reference Standards Reactive Oxygen Species (ROS) Apoptosis
Chicoric acid (Standard) is the analytical standard of Chicoric acid. This product is intended for research and analytical applications. Chicoric acid (Cichoric acid), an orally active dicaffeyltartaric acid, induces reactive oxygen species (ROS) generation. Chicoric acid inhibits cell viability and induces mitochondria-dependent apoptosis in 3T3-L1 preadipocytes through ROS-mediated PI3K/Akt and MAPK signaling pathways. Chicoric acid increases glucose uptake, improves insulin resistance, and attenuates glucosamine-induced inflammation. Chicoric acid has antidiabetic properties and antioxidant, anti-inflammatory effects .

HY-W012722

4-Methyl-2-oxopentanoic acid 1 Publications Verification α-Ketoisocaproic acid	Structural Classification Human Gut Microbiota Metabolites Immune System Disorder Microorganisms Ketones, Aldehydes, Acids Source classification Disease markers Endogenous metabolite	Endogenous Metabolite Autophagy mTOR SOD
4-Methyl-2-oxopentanoic acid (α-Ketoisocaproic acid) is a metabolite of L-leucine and is involved in energy metabolism. 4-Methyl-2-oxopentanoic acid increases endoplasmic reticulum stress, promotes lipid accumulation in preadipocytes and insulin resistance by impairing mTOR and autophagy signaling pathways. 4-Methyl-2-oxopentanoic acid also causes oxidative damage, leading to cognitive deficits, inhibits α-ketoglutarate dehydrogenase activity, acts as an oxidative phosphorylation uncoupler and metabolic inhibitor. 4-Methyl-2-oxopentanoic acid acts as a nutrient signal and stimulates skeletal muscle protein synthesis. 4-Methyl-2-oxopentanoic acid can be used in the study of maple syrup urine disease .

HY-N2515R

Ginsenoside Rk1 (Standard)	Panax ginseng C. A. Meyer Triterpenes Structural Classification Terpenoids Source classification Plants Araliaceae	Reference Standards NF-κB PI3K JAK Apoptosis
Ginsenoside Rk1 (Standard) is the analytical standard of Ginsenoside Rk1. This product is intended for research and analytical applications. Ginsenoside Rk1 is a unique component created by processing the ginseng plant (mainly Sung Ginseng, SG) at high temperatures . Ginsenoside Rk1 has anti-inflammatory effect, suppresses the activation of Jak2/Stat3 signaling pathway and NF-κB . Ginsenoside Rk1 has anti-tumor effect, antiplatelet aggregation activities, anti-insulin resistance, nephroprotective effect, antimicrobial effect, cognitive function enhancement, lipid accumulation reduction and prevents osteoporosis . Ginsenoside Rk1 induces cell apoptosis by triggering intracellular reactive oxygen species (ROS) generation and blocking PI3K/Akt pathway .

HY-N3225

Myricanol	Myrica ceriferaL. Structural Classification Source classification Phenols Polyphenols Plants Myricaceae	NAMPT Sirtuin Microtubule/Tubulin Apoptosis Autophagy PDGFR NF-κB AMPK
Myricanol is a diarylheptanoid and a Nampt activator. Myricanol exerts anti-inflammatory effects and alleviates glucocorticoid-induced muscle atrophy by increasing Sirtuin 1 (SIRT1) and PRDX5 activities while regulating inflammatory factors. Myricanol exhibits growth inhibition and induces apoptosis in human lung adenocarcinoma A549 cells. Myricanol promotes autophagy-mediated clearance of microtubule-associated protein tau to exert neuroprotective effects. Myricanol protects cardiovascular function by inhibiting PDGFRβ and NF-κB signaling pathways. Myricanol activates mitochondrial transcription factor A (TFAM) expression to exert anti-renal fibrosis effects. Myricanol improves insulin resistance through AMPK activation .

HY-N2468R

Xylobiose (Standard)	Structural Classification Zea mays L. Polysaccharides Gramineae Source classification Plants Saccharides	TNF Receptor Claudin HSP
Xylobiose (1,4-β-D-Xylobiose; 1,4-D-Xylobiose) is an orally active Claudin 2/CLDN2 inhibitor and HSP27 inducer. Xylobiose works by regulating intestinal barrier function and glucose and lipid metabolism-related signaling pathways. Xylobiose inhibits CLDN2 expression to reduce intestinal permeability, induces HSP27 to enhance cell protection, and regulates the miR-122a/miR-33a axis to inhibit liver lipid synthesis and improve insulin resistance. Xylobiose can strengthen intestinal barrier integrity, reduce blood sugar and blood lipid levels, and reduce oxidative stress and inflammatory response. Xylobiose can be used in the study of type 2 diabetes and metabolic syndrome .

HY-N2468

Xylobiose 1,4-β-D-Xylobiose; 1,4-D-Xylobiose	Structural Classification Zea mays L. Polysaccharides Classification of Application Fields Gramineae Source classification Other Diseases Plants Disease Research Fields Saccharides	TNF Receptor Claudin HSP
Xylobiose (1,4-β-D-Xylobiose; 1,4-D-Xylobiose) is an orally active Claudin 2/CLDN2 inhibitor and HSP27 inducer. Xylobiose works by regulating intestinal barrier function and glucose and lipid metabolism-related signaling pathways. Xylobiose inhibits CLDN2 expression to reduce intestinal permeability, induces HSP27 to enhance cell protection, and regulates the miR-122a/miR-33a axis to inhibit liver lipid synthesis and improve insulin resistance. Xylobiose can strengthen intestinal barrier integrity, reduce blood sugar and blood lipid levels, and reduce oxidative stress and inflammatory response. Xylobiose can be used in the study of type 2 diabetes and metabolic syndrome .

Cat. No.	Product Name	Chemical Structure

HY-110228

Metformin-d6 hydrochloride

Metformin-d₆ hydrochloride is a deuterium labeled Metformin hydrochloride. Metformin hydrochloride inhibits the mitochondrial respiratory chain in the liver, leading to AMPK activation and enhancing insulin sensitivity, and can be used in the study of type 2 diabetes. Metformin hydrochloride also inhibits liver oxidative stress, nitrosative stress, inflammation, and apoptosis caused by liver ischemia/reperfusion injury. In addition, metformin hydrochloride regulates the expression of autophagy-related proteins by activating AMPK and inhibiting the mTOR signaling pathway, thereby inducing tumor cell autophagy and inhibiting the growth of renal cell carcinoma in vitro and in vivo .

HY-176347S

Alpha Feto Protein, Arg-13C6,15N4, Lys-13C6,15N2
Alpha Feto Protein, Arg- ¹³C₃₆, ¹⁵N₄, Lys- ¹³C₆, ¹⁵N₂ is the ¹³C- and ¹⁵N-labeled Alpha Feto Protein.

HY-W012722BS

4-Methyl-2-oxopentanoic acid-d7 sodium

4-Methyl-2-oxopentanoic acid-d₇ (α-Ketoisocaproic acid-d₇) sodium is the deuterium labeled 4-Methyl-2-oxopentanoic acid (HY-W012722).4-Methyl-2-oxopentanoic acid is a metabolite of L-leucine and is involved in energy metabolism. 4-Methyl-2-oxopentanoic acid increases endoplasmic reticulum stress, promotes lipid accumulation in preadipocytes and insulin resistance by impairing mTOR and autophagy signaling pathways .

HY-B0627S

Metformin-d6

Metformin-d₆ (1,1-Dimethylbiguanide-d₆) is a deuterated labeled Metformin (HY-B0627). Metformin inhibits the mitochondrial respiratory chain in the liver, leading to AMPK activation and enhancing insulin sensitivity, and can be used in the study of type 2 diabetes. Metformin also inhibits liver oxidative stress, nitrosative stress, inflammation, and apoptosis caused by liver ischemia/reperfusion injury. In addition, metformin regulates the expression of autophagy-related proteins by activating AMPK and inhibiting the mTOR signaling pathway, thereby inducing tumor cell autophagy and inhibiting the growth of renal cell carcinoma in vitro and in vivo .

HY-B0627S1

Metformin-13C2 hydrochloride

Metformin- ¹³C₂ (1,1-Dimethylbiguanide- ¹³C₂) hydrochloride is the ¹³C-labeled Metformin hydrochloride (HY-17471A). Metformin hydrochloride inhibits the mitochondrial respiratory chain in the liver, leading to AMPK activation and enhancing insulin sensitivity, and can be used in the study of type 2 diabetes. Metformin hydrochloride also inhibits liver oxidative stress, nitrosative stress, inflammation, and apoptosis caused by liver ischemia/reperfusion injury. In addition, metformin hydrochloride regulates the expression of autophagy-related proteins by activating AMPK and inhibiting the mTOR signaling pathway, thereby inducing tumor cell autophagy and inhibiting the growth of renal cell carcinoma in vitro and in vivo .

Cat. No.	Product Name		Classification

HY-174645

Human IL10RA mRNA		mRNA
Human IL10RA mRNA encodes the human interleukin 10 receptor subunit alpha (IL10RA) protein, a receptor for interleukin 10. IL10RA been shown to mediate the immunosuppressive signal of interleukin 10, and thus inhibits the synthesis of proinflammatory cytokines. It is also reported to promote survival of progenitor myeloid cells through the insulin receptor substrate-2/PI 3-kinase/AKT pathway.

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insulin signalling pathway

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