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Results for "

metabolic+syndrome

" in MedChemExpress (MCE) Product Catalog:

By Targets:	11β-HSD (7) ABA Receptor (2) Acetyl-CoA Carboxylase (1) ACSL Family (1) Acyltransferase (1) AMPK (3) Apelin Receptor (APJ) (2) Apical Sodium-Dependent Bile Acid Transporter (5) Apoptosis (2) Biochemical Assay Reagents (2) Calcium Channel (2) Cannabinoid Receptor (3) Carboxylesterase (CES) (1) Chemerin Receptor (1) Claudin (2) DAGL (2) Drug Derivative (3) Drug Metabolite (2) Endogenous Metabolite (9) Environmental Pollutants (3) Epigenetic Reader Domain (2) ERK (3) Free Fatty Acid Receptor (1) Fungal (1) G protein-coupled Bile Acid Receptor 1 (1) Glycosidase (2) HSP (3) Interleukin Related (2) IPK Superfamily (1) Isotope-Labeled Compounds (2) Leukotriene Receptor (2) LPL Receptor (1) MAGL (1) Necroptosis (2) NEKs (1) NF-κB (2) NO Synthase (1) NOD-like Receptor (NLR) (1) p38 MAPK (1) PCSK9 (1) PGC-1α (1) Phosphatase (1) Phosphodiesterase (PDE) (2) Phospholipase (1) Potassium Channel (1) PPAR (10) Proton Pump (2) RAR/RXR (1) Reactive Oxygen Species (ROS) (2) Reference Standards (7) Sirtuin (1) TNF Receptor (5) Toll-like Receptor (TLR) (1) TRP Channel (2)
By Research Areas:	Cancer (12) Cardiovascular Disease (14) Infection (1) Inflammation/Immunology (22) Metabolic Disease (65) Neurological Disease (9)

By Targets:

11β-HSD (7)

ABA Receptor (2)

Acetyl-CoA Carboxylase (1)

ACSL Family (1)

Acyltransferase (1)

AMPK (3)

Apelin Receptor (APJ) (2)

Apical Sodium-Dependent Bile Acid Transporter (5)

Apoptosis (2)

Biochemical Assay Reagents (2)

Calcium Channel (2)

Cannabinoid Receptor (3)

Carboxylesterase (CES) (1)

Chemerin Receptor (1)

Claudin (2)

DAGL (2)

Drug Derivative (3)

Drug Metabolite (2)

Endogenous Metabolite (9)

Environmental Pollutants (3)

Epigenetic Reader Domain (2)

ERK (3)

Free Fatty Acid Receptor (1)

Fungal (1)

G protein-coupled Bile Acid Receptor 1 (1)

Glycosidase (2)

HSP (3)

Interleukin Related (2)

IPK Superfamily (1)

Isotope-Labeled Compounds (2)

Leukotriene Receptor (2)

LPL Receptor (1)

MAGL (1)

Necroptosis (2)

NEKs (1)

NF-κB (2)

NO Synthase (1)

NOD-like Receptor (NLR) (1)

p38 MAPK (1)

PCSK9 (1)

PGC-1α (1)

Phosphatase (1)

Phosphodiesterase (PDE) (2)

Phospholipase (1)

Potassium Channel (1)

PPAR (10)

Proton Pump (2)

RAR/RXR (1)

Reactive Oxygen Species (ROS) (2)

Reference Standards (7)

Sirtuin (1)

TNF Receptor (5)

Toll-like Receptor (TLR) (1)

TRP Channel (2)

By Research Areas:

Cancer (12)

Cardiovascular Disease (14)

Infection (1)

Inflammation/Immunology (22)

Metabolic Disease (65)

Neurological Disease (9)

Inhibitors & Agonists

Screening Libraries

Peptides

Natural
Products

Isotope-Labeled Compounds

Cat. No.	Product Name	Target	Research Areas	Chemical Structure

HY-100560

Abscisic acid 3 Publications Verification (S)-(+)-Abscisic acid; ABA	Environmental Pollutants Endogenous Metabolite ABA Receptor Proton Pump	Metabolic Disease
Abscisic acid ((S)-(+)-Abscisic acid), an orally active phytohormone in fruits and vegetables, is an endogenously produced mammalian hormone. Abscisic acid is a growth inhibitor and can regulate many aspects of plant growth and development. Abscisic acid inhibits proton pump (H ⁺-ATPase) and leads to the plasma membrane depolarization in a Ca ²⁺-dependent manner. Abscisic acid, a LANCL2 natural ligand, is a potent insulin-sensitizing compound and has the potential for pre-diabetes, type 2 diabetes and metabolic syndrome .

HY-P4153

Enlicitide chloride MK-0616 chloride	PCSK9	Cardiovascular Disease
Enlicitide chloride is an orally active inhibitor for PCSK9 that blocks the interaction between LPL receptor and PSCK9, with an IC₅₀ of 2.5 nM. Enlicitide chloride can be used in the study of cardiovascular diseases such as atherosclerosis, hypercholesterolemia, coronary heart disease, metabolic syndrome, acute coronary syndrome or related cardiovascular and cardiometabolic disorders .

HY-N7075

Inulin 4 Publications Verification	Endogenous Metabolite	Infection Neurological Disease Metabolic Disease Cancer
Inulin is an orally active prebiotic targeting the intestinal microbiota, selectively promoting the proliferation and activity of beneficial bacteria such as bifidobacteria and lactic acid bacteria, and playing a role in regulating the intestinal microecology. The functions of Inulin include: Fermentation by probiotics in the colon to produce short-chain fatty acids (such as butyrate and propionate), lowering the intestinal pH and inhibiting the overgrowth of harmful bacteria; Enhancing the intestinal barrier function and reducing endotoxin translocation; Directly scavenging free radicals (such as superoxide free radicals, hydroxyl free radicals) and activating antioxidant enzymes (SOD, CAT) to reduce oxidative stress. Inulin can also be used in the study of intestinal diseases (constipation, IBD), metabolic syndrome (diabetes, obesity) and liver damage by regulating glucose and lipid metabolism (such as reducing triglycerides, improving insulin sensitivity) and immune response (enhancing NK cell activity, inhibiting inflammatory factors)[1][2][3][4].

HY-P1944

Apelin-13 5+ Cited Publications	Apelin Receptor (APJ)	Cardiovascular Disease Metabolic Disease
Apelin-13 is an endogenous ligand for the G-protein coupled receptor angiotensin II protein J (APJ), activating this G protein-coupled receptor with an EC₅₀ value of 0.37 nM. Apelin-13 is widely distributed in the central and peripheral nervous systems. Apelin-13 has vasodilatory and antihypertensive effects. Apelin-13 also can be used for researching type 2 diabetes and metabolic syndrome .

HY-P1944A

Apelin-13 TFA 5+ Cited Publications	Apelin Receptor (APJ)	Cardiovascular Disease Metabolic Disease
Apelin-13 TFA is an endogenous ligand for the G-protein coupled receptor angiotensin II protein J (APJ), activating this G protein-coupled receptor with an EC₅₀ value of 0.37 nM. Apelin-13 TFA has vasodilatory and antihypertensive effects. Apelin-13 TFA also can be used for researching type 2 diabetes and metabolic syndrome .

HY-N0515

Ophiopogonin D 1 Publications Verification	PPAR NF-κB Calcium Channel Reactive Oxygen Species (ROS) ERK	Cardiovascular Disease Metabolic Disease Inflammation/Immunology
Ophiopogonin D can be isolated from the tubers of Ophiopogon japonicus, is a rare naturally occurring C₂₉ steroidal glycoside. Ophiopogonin D is a CYP2J3 inducer that significantly inhibits Ang II induced NF-κB nuclear translocation, IκBα down-regulation, intracellular Ca ²⁺ overload and activation of pro-inflammatory cytokines by increasing the expression of CYP2J2/EETs and PPARα in human umbilical vein endothelial cells (HUVECs). Ophiopogonin D can inhibit isteoclastic differentiation in RAW264.7 cells. Ophiopogonin D has protective effect as an antioxidant in H₂O₂-induced endothelial injury. Ophiopogonin D blocks ERK signaling cascades. Ophiopogonin D alleviates high-fat diet-induced metabolic syndrome and changes the structure of gut microbiota in mice. Ophiopogonin D has been used against inflammatory, metabolic and cardiovascular diseases .

HY-115831

SAR247799 2 Publications Verification S1P1 agonist 3	LPL Receptor	Cardiovascular Disease
SAR247799 (S1P1 agonist 3) is an oral activity, selective G-protein-biased sphingosine-1 phosphate receptor-1 (S1P1 ) agonist, with EC₅₀s rang from 12.6 to 493 nM in S1P1-overexpressing cells and HUVECs. SAR247799 can be used for the research of endothelial protection, including type-2 diabetes, 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-15790

Elobixibat 1 Publications Verification A 3309; AZD 7806	Apical Sodium-Dependent Bile Acid Transporter	Metabolic Disease Inflammation/Immunology Cancer
Elobixibat (A 3309; AZD 7806) is an orally active, bile acid transporter (IBAT) inhibitor with IC₅₀ values ??of 0.53 nM (human IBAT), 0.13 nM (mouse IBAT), and 5.8 nM (canine IBAT). Elobixibat can lower LDL cholesterol, increase serum GLP-1, promote colonic motility, and has the potential to study metabolic syndrome. Elobixibat can be used in the study of chronic functional constipation (CIC), dyslipidemia, non-alcoholic hepatitis, and liver tumors in the elderly .

HY-124529

Lunularin	11β-HSD Endogenous Metabolite	Metabolic Disease Inflammation/Immunology Cancer
Lunularin is an inhibitor of 11β-hydroxysteroid dehydrogenase 1, with an IC₅₀ of 45.44 μM and a K_i of 35.8 μM against human 11β-HSD1, and an IC₅₀ of 17.39 μM and a K_i of 10.31 μM against rat 11β-HSD1. Lunularin upregulates the transcription levels of Sirt1 and Hmox1 genes in the liver. Lunularin reduces food intake and body weight gain, and decreases blood glucose levels in mice fed a high-fat diet. Lunularin inhibits LPS-induced TLR4-mediated NF-κB pathway activation and nitric oxide production. Lunularin inhibits the proliferation and colony formation of renal cancer and colon cancer cells, and exhibits cancer cell-specific cytotoxicity. Lunularin binds to the steroid-binding site of human 11β-HSD1 and the steroid/NADPH-binding region of rat 11β-HSD1, but does not inhibit 11β-HSD2 or mouse 11β-HSD1. Lunularin can be used in research related to diet-induced obesity, renal cancer, colorectal cancer, inflammatory diseases and metabolic syndrome .

HY-N10319

Artepillin C	Epigenetic Reader Domain Necroptosis TRP Channel	Metabolic Disease Inflammation/Immunology Cancer
Artepillin C is an orally active CREB/CRTC2 inhibitor and TRPA1 covalent agonist (EC₅₀=1.8 μM). Artepillin C inhibits CREB/CRTC2-mediated gene transcription and downregulates BMAL1 expression to regulate glucose and lipid metabolism. Artepillin C can also activate TRPA1 channels to induce spicy taste signals. Artepillin C can inhibit tumor cell proliferation, induce necroptosis, improve insulin resistance and inhibit liver lipid synthesis. Artepillin C can be used in the study of metabolic syndrome, tumor prevention and treatment, and inflammation .

HY-15790A

Elobixibat hydrate 1 Publications Verification A 3309 hydrate; AZD 7806 hydrate	Apical Sodium-Dependent Bile Acid Transporter	Metabolic Disease Cancer
Elobixibat (A 3309; AZD 7806) hydrate is an orally active, bile acid transporter (IBAT) inhibitor with IC₅₀ values ??of 0.53 nM (human IBAT), 0.13 nM (mouse IBAT), and 5.8 nM (canine IBAT). Elobixibat hydrate can lower LDL cholesterol, increase serum GLP-1, promote colonic motility, and has the potential to study metabolic syndrome. Elobixibat hydrate can be used in the study of chronic functional constipation (CIC), dyslipidemia, non-alcoholic hepatitis, and liver tumors in the elderly .

HY-164236

C22 Glucosylceramide (d18:1/22:0)	Endogenous Metabolite	Metabolic Disease
C22 Glucosylceramide (d18:1/22:0) is a bioactive sphingolipid composed of a d18:1 sphingoid base and a 22:0 fatty acid chain. C22 Glucosylceramide (d18:1/22:0) specifically exists in Doxorubicin (HY-15142A)-sensitive cancer cells, and its circulating concentration is positively correlated with the incidence of cardiovascular events. C22 Glucosylceramide (d18:1/22:0) has been widely used in research related to cardiovascular diseases, hypercholesterolemia, metabolic syndrome, breast adenocarcinoma and other fields .

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-N15135

Arabinoxylan (Medium viscosity)	Interleukin Related Toll-like Receptor (TLR) Fungal	Metabolic Disease
Arabinoxylan Medium viscosity is an orally active Dectin-1 splice variant modulator, glucose absorption inhibitor, and chyme viscosity enhancer. Arabinoxylan Medium viscosity inhibits particulate β-glucan-induced Dectin-1A activation and mildly suppresses Dectin-1B activation. In human dendritic cells stimulated with particulate β-glucan, Arabinoxylan Medium viscosity reduces the production of IL-10 and TNF-α, and increases the production of IL-4 and IL-23. Arabinoxylan Medium viscosity also supports antifungal immune responses without activating TLR2, TLR4 or TLR5, and does not induce cytokine production when used to stimulate human dendritic cells alone. Arabinoxylan Medium viscosity increases small intestinal chyme viscosity, gets degraded in the large intestine to produce short-chain fatty acids, reduces glucose absorption and insulin response, and improves glucose homeostasis. Arabinoxylan Medium viscosity supports microbial fermentation and the growth of beneficial microbiota in the gastrointestinal tract, prevents bile acid reabsorption, and delays starch digestion. Arabinoxylan Medium viscosity can be used in research related to type 2 diabetes, impaired glucose tolerance, and metabolic syndrome .

HY-W002304

(R)-5-Oxopyrrolidine-2-carboxylic acid	Drug Derivative	Metabolic Disease
(R)-5-Oxopyrrolidine-2-carboxylic acid (D-Pyroglutamic acid) is a cyclic derivative of D-glutamate. (R)-5-Oxopyrrolidine-2-carboxylic acid can be used in the research of metabolic syndrome and end-stage renal disease .

HY-W009417

Cedryl acetate	Environmental Pollutants Glycosidase	Metabolic Disease
Cedryl acetate is an orally active α-glucosidase inhibitor with an IC₅₀ of 94 μM against yeast α-glucosidase. Cedryl acetate reduces high-fat diet-induced body weight gain, visceral fat pad weight, adipocyte hypertrophy, hepatic lipid accumulation, glucose intolerance, insulin resistance and gluconeogenesis. Cedryl acetate can be used in the research of obesity and obesity-related metabolic syndrome .

HY-124314

LEI-106	MAGL DAGL	Metabolic Disease
LEI-106 is a dual ABHD6 and DAGL-α inhibitor, with a K_i of 0.8 μM for ABHD6, and an IC₅₀ of 18 nM and a K_i of 0.7 μM for DAGL-α. LEI-106 blocks the synthesis of 2-arachidonoylglycerol, reduces the level of endothelial cell-derived 2-arachidonoylglycerol, without altering the levels of cannabinoids and diacylglycerol. LEI-106 is applicable to research related to diet-induced obesity and metabolic syndrome .

HY-177704

ACSL5-IN-1	ACSL Family Drug Derivative	Metabolic Disease Cancer
ACSL5-IN-1 (Compound A) is an ACSL5 inhibitor with body weight-reducing activity. ACSL5-IN-1 inhibits ACSL5, an enzyme linked to fatty acid metabolism. ACSL5-IN-1 reduces body weight in diet-induced obesity mice. ACSL5-IN-1 can be used for the research of obesity, metabolic dysfunction-associated steatohepatitis, metabolic syndrome, non-alcoholic fatty liver disease, type 2 diabetes, acute myeloid leukemia, colorectal cancer, and breast cancer .

HY-110206

AM6545	Cannabinoid Receptor	Metabolic Disease
AM6545 is a highly selective, brain-free (peripherally active) CB1 receptor antagonist (K_i=1.7 nM). AM6545 inhibits endocannabinoid signaling by competitively antagonizing CB1 receptors, inhibiting CB1-mediated appetite stimulation and inflammatory responses without affecting cAMP levels. AM6545 significantly reduces food intake and body weight in mice, while improving metabolic syndrome-related renal impairment (such as proteinuria, fibrosis) and insulin resistance. AM6545 can be used in the study of obesity and its complications .

HY-150700

RLX-33	ERK	Metabolic Disease
RLX-33 is a potent, selective and blood-brain barrier (BBB) penetrant relaxin family peptide 3 (RXFP3) antagonist, also blocks relaxin-3-induced ERK1/2 phosphorylation, with IC₅₀ values of 2.36 μM for RXFP3, 7.82 and 13.86 μM for ERK1 and ERK2 phosphorylation, respectively. RLX-33 can block the stimulation of food intake induced by the RXFP3-selective agonist R3/I5 in rats. RLX-33 can be used for the research of metabolic syndrome .

HY-126359

1-Stearoyl-2-linoleoyl-sn-glycero-3-phosphocholine SLPC; 18:0-18:2 PC	Endogenous Metabolite	Cardiovascular Disease Metabolic Disease
1-Stearoyl-2-linoleoyl-sn-glycero-3-phosphocholine (SLPC; 18:0-18:2 PC) is an endogenous phospholipid marker molecule in the glycerophospholipid metabolic pathway. 1-Stearoyl-2-linoleoyl-sn-glycero-3-phosphocholine is a core component of the phospholipid bilayer of biological membranes and a key responsive lipid for radiation injury and cardiometabolic diseases. 1-Stearoyl-2-linoleoyl-sn-glycero-3-phosphocholine constitutes the phospholipid bilayers of cell membranes and high-density lipoprotein (HDL), and regulates the core activity of lipoprotein functional homeostasis. The content of 1-Stearoyl-2-linoleoyl-sn-glycero-3-phosphocholine in mouse serum shows a significant dose-dependent decrease with increasing ionizing radiation dose, and its level in human HDL also decreases significantly in metabolic syndrome. 1-Stearoyl-2-linoleoyl-sn-glycero-3-phosphocholine can serve as a biological dosimeter marker for ionizing radiation injury, and is used for rapid and accurate assessment of radiation absorbed dose in exposed individuals. 1-Stearoyl-2-linoleoyl-sn-glycero-3-phosphocholine can also act as a lipidomics research target for cardiometabolic diseases such as lipid metabolic syndrome and early-onset coronary heart disease .

HY-163358

SLC3037 1 Publications Verification	NOD-like Receptor (NLR) NEKs	Cardiovascular Disease Neurological Disease Inflammation/Immunology
SLC3037 is a NLRP3 inhibitor which blocks NLRP3 from binding to NEK7 or oligomerization, inhibiting inflammasome caused by MSU and other inflammasome activators. SLC3037 can be used for research of gout, cardiovascular diseases, metabolic syndrome or neurodegenerative diseases .

HY-16434

DGAT1-IN-3	Acyltransferase	Metabolic Disease
DGAT1-IN-3 is a potent, selective and orally bioavailable inhibitor of DGAT-1, with IC₅₀s of 38 nM for human DGAT-1 and 120 nM for rat DGAT-1. DGAT1-IN-3 could be used to research of obesity, dyslipidemia, and metabolic syndrome .

HY-174140

VU0514009	Chemerin Receptor	Metabolic Disease Inflammation/Immunology
VU0514009 is a competitive chemokine-like receptor 1 (CMKLR1) antagonist (EC₅₀=2 nM). VU0514009 prevents chemerin-9-induced arrestin recruitment and receptor internalization, significantly reducing Ca ²⁺ flux response in HEK293 cells. VU0514009 is promising for research of inflammatory diseases and metabolic syndrome .

HY-100560R

Abscisic acid (Standard) (S)-(+)-Abscisic acid (Standard); ABA (Standard)	Reference Standards Endogenous Metabolite Proton Pump ABA Receptor	Metabolic Disease
Abscisic acid (Standard) is the analytical standard of Abscisic acid. This product is intended for research and analytical applications. Abscisic acid ((S)-(+)-Abscisic acid), an orally active phytohormone in fruits and vegetables, is an endogenously produced mammalian hormone. Abscisic acid is a growth inhibitor and can regulate many aspects of plant growth and development. Abscisic acid inhibits proton pump (H+-ATPase) and leads to the plasma membrane depolarization in a Ca2+-dependent manner. Abscisic acid, a LANCL2 natural ligand, is a potent insulin-sensitizing compound and has the potential for pre-diabetes, type 2 diabetes and metabolic syndrome .

HY-156010

PPARγ-IN-2	PPAR	Metabolic Disease
PPARγ-IN-2 (Compound 5a) is a PPARγ inhibitor. PPARγ-IN-2 inhibits TG accumulation in 3T3-L1 preadipocytes (EC₅₀: 0.106 μM). PPARγ-IN-2 inhibits high-cholesterol diet (HFC)-induced obesity and related metabolic syndrome, and reduces lipid accumulation in adipose tissue .

HY-126031

(R)-KT109	DAGL	Inflammation/Immunology
(R)-KT109 is a peripherally restricted serine hydrolase inhibitor that cannot cross the blood-brain barrier. (R)-KT109 irreversibly inhibits ABHD6, DAGLα and DAGLβ via carbamoylation of the active-site serine. (R)-KT109 exerts selective inhibitory effects on serine hydrolases in mouse brains, with pIC₅₀ values of 8.6, 9.1 and 8.2 against human ABHD6, DAGLα and DAGLβ, respectively. (R)-KT109 effectively reduces the levels of 2-arachidonoylglycerol, arachidonic acid, eicosanoids and TNF-α. (R)-KT109 is widely used in studies of metabolic syndrome-related diseases and neuroinflammation .

HY-E70599

Human CES2 Enzyme	Carboxylesterase (CES)	Metabolic Disease
Human CES2 Enzyme is a carboxylesterase involved in drug metabolism and lipid homeostasis. Human CES2 Enzyme hydrolyzes triglycerides, cholesteryl esters and retinyl esters to regulate lipid metabolism and energy homeostasis. Human CES2 Enzyme improves glucose tolerance and insulin sensitivity, reduces hepatic lipid accumulation, alleviates white adipose tissue steatitis, decreases plasma cholesterol levels, and reduces body weight and white adipose tissue weight. Human CES2 Enzyme can be used in the research of metabolic syndrome .

HY-W414548

7α,27-Dihydroxycholesterol	Others	Neurological Disease Metabolic Disease
7α,27-Dihydroxycholesterol is an oxysterol characterized by its oxidized side chains and is produced through the hydroxylation of 27-Hydroxycholesterol (27-OHC); it serves as a metabolite of interest in lipidomic analyses of various pathological conditions, including neurological diseases, Smith-Lemli-Opitz syndrome, obesity metabolic syndrome, and diabetes. Notably, levels of 7α,27-di-OHC decrease following lipopolysaccharide activation, and it also functions as a ligand for Epstein-Barr virus-induced gene 2 (EBI2). Additionally, 7α,27-di-OHC exists as a structural isomer of 7α,25-dihydroxycholesterol (7α25-OHC).

HY-N10319R

Artepillin C (Standard)	Reference Standards TRP Channel Necroptosis Epigenetic Reader Domain	Metabolic Disease Inflammation/Immunology Cancer
Artepillin C (Standard) is the analytical standard of Artepillin C (HY-N10319). This product is intended for research and analytical applications. Artepillin C is an orally active CREB/CRTC2 inhibitor and TRPA1 covalent agonist (EC₅₀=1.8 μM). Artepillin C inhibits CREB/CRTC2-mediated gene transcription and downregulates BMAL1 expression to regulate glucose and lipid metabolism. Artepillin C can also activate TRPA1 channels to induce spicy taste signals. Artepillin C can inhibit tumor cell proliferation, induce apoptosis, improve insulin resistance and inhibit liver lipid synthesis. Artepillin C can be used in the study of metabolic syndrome, tumor prevention and treatment, and inflammation .

HY-N11262

Sudachitin	Phosphodiesterase (PDE) Sirtuin PGC-1α p38 MAPK HSP TNF Receptor NO Synthase Apoptosis	Metabolic Disease Inflammation/Immunology
Sudachitin is an orally active compound that potently inhibits mouse PDE1C and human PDE4B, with IC₅₀ values of 5.0 μM and 15.0 μM, respectively. Sudachitin upregulates Sirt1 and PGC‑1α expression in skeletal muscle to regulate energy metabolism and promote mitochondrial biogenesis. Sudachitin improves lipid metabolism, glucose tolerance, insulin sensitivity, energy expenditure, and fatty acid β‑oxidation. Sudachitin activates p38MAPK signaling, induces HSP27 phosphorylation and caspase‑dependent apoptosis, and blocks EGF‑driven keratinocyte migration and proliferation. Sudachitin suppresses LPS‑induced TNF‑α, NO, and iNOS expression in macrophages and shows potent anti‑inflammatory activity. Sudachitin can be used for the research of metabolic syndrome, type 2 diabetes, and psoriasis. .

HY-N0515R

Ophiopogonin D (Standard)	Reference Standards PPAR NF-κB Calcium Channel ERK Reactive Oxygen Species (ROS)	Cardiovascular Disease Metabolic Disease Inflammation/Immunology
Ophiopogonin D (Standard) is the analytical standard of Ophiopogonin D. This product is intended for research and analytical applications. Ophiopogonin D can be isolated from the tubers of Ophiopogon japonicus, is a rare naturally occurring C29 steroidal glycoside. Ophiopogonin D is a CYP2J3 inducer that significantly inhibits Ang II induced NF-κB nuclear translocation, IκBα down-regulation, intracellular Ca2+ overload and activation of pro-inflammatory cytokines by increasing the expression of CYP2J2/EETs and PPARα in human umbilical vein endothelial cells (HUVECs). Ophiopogonin D can inhibit isteoclastic differentiation in RAW264.7 cells. Ophiopogonin D has protective effect as an antioxidant in H₂O₂-induced endothelial injury. Ophiopogonin D blocks ERK signaling cascades. Ophiopogonin D alleviates high-fat diet-induced metabolic syndrome and changes the structure of gut microbiota in mice. Ophiopogonin D has been used against inflammatory, metabolic and cardiovascular diseases .

HY-P2819

Phosphofructokinase 1 PFK1	Phosphatase	Metabolic Disease
Phosphofructokinase 1 (PFK1) is a major regulatory enzyme targeting glycolytic pathway. Phosphofructokinase 1 catalyzes the phosphorylation of fructose-6-phosphate (F6P) to fructose-1,6-bisphosphate (F1,6BP) to regulate glycolytic flux. Phosphofructokinase 1 is promising for research of cancer metabolic reprogramming (e.g., hypoxia adaptation, oxidative stress resistance) and metabolic syndromes .

HY-N7394

Galbacin (3S)-Zuonin A	AMPK	Metabolic Disease Cancer
Galbacin ((3S)-Zuonin A), the epimer of (-)-Zuonin A (HY-N7394A), is a AMPK activator. Galbacin can be isolated from Myristica fragrans (nutmeg). Galbacin stimulates AMPK enzyme in differentiated C2C12 cells. Galbacin also has anticancer activity, and inhibits the proliferation of lymphocyte and tumor cells. Galbacin prevents weight gain in diet-induced mice model. Galbacin can be used for metabolic syndrome (including obesity and type-2 diabetes) and caners research .

HY-147086

CAY10789	Leukotriene Receptor G protein-coupled Bile Acid Receptor 1 TNF Receptor	Metabolic Disease Inflammation/Immunology
CAY10789 is a potent CysLT1R (cysteinyl leukotriene receptor 1) antagonist (IC₅₀=2.80 μM) and GPBAR1 (G-protein-coupled bile acid receptor 1) agonist (EC₅₀=3 μM). CAY10789 significantly reduces the adhesion of U937 cells to HAEC, reduces the expression of TNF-α. CAY10789 shows very promising metabolic stability and excellent pharmacokinetics. CAY10789 can be used for the research of colitis, metabolic syndromes, and other GPBAR1/CysLT1R-related diseases .

HY-164236S

C22 Glucosylceramide (d18:1/22:0)-d4	Isotope-Labeled Compounds Endogenous Metabolite	Metabolic Disease
C22 Glucosylceramide (d18:1/22:0)-d₄ is deuterium labeled C22 Glucosylceramide (d18:1/22:0) (HY-164236). C22 Glucosylceramide (d18:1/22:0) is a bioactive sphingolipid composed of a d18:1 sphingoid base and a 22:0 fatty acid chain. C22 Glucosylceramide (d18:1/22:0) specifically exists in Doxorubicin (HY-15142A)-sensitive cancer cells, and its circulating concentration is positively correlated with the incidence of cardiovascular events. C22 Glucosylceramide (d18:1/22:0) has been widely used in research related to cardiovascular diseases, hypercholesterolemia, metabolic syndrome, breast adenocarcinoma and other fields .

HY-177003

SM (d18:1/15:0)	Phospholipase	Neurological Disease Metabolic Disease
SM (d18:1/15:0) is a sphingomyelinase inhibitor. SM (d18:1/15:0) is promising for research of neurodegenerative diseases (e.g., Alzheimer's) and metabolic syndrome .

HY-123181

MK-0916	11β-HSD	Cardiovascular Disease Metabolic Disease
MK-0916 is a HSD1 inhibitor. MK-0916 produces mechanism-based activation of the hypothalamic-pituitary-adrenal axis. MK-0916 can be used in the research of type 2 diabetes and metabolic syndromes .

HY-N7687

Caulophyllogenin	PPAR	Metabolic Disease Inflammation/Immunology
Caulophyllogenin is a triterpene saponin extracted from M. polimorpha. Caulophyllogenin is a partial PPARγ agonist, with an EC₅₀ of 12.6 μM. Caulophyllogenin can be used for the research of type-2 diabetes, obesity, metabolic syndrome and inflammation .

HY-P4815

Prokineticin 2 Isoform 2 (human)	Endogenous Metabolite	Neurological Disease Metabolic Disease
Prokineticin 2 Isoform 2 (human) is a hypothalamic neuropeptide. Prokineticin 2 Isoform 2 (human) decreases food intake and involves in thermoregulation and energy metabolism in rodents. Prokineticin 2 has the potential for the research of hyperglycemia, metabolic syndrome (MetS) and obesity .

HY-16946

CP-610431	Acetyl-CoA Carboxylase	Metabolic Disease
CP-610431 is a reversible, ATP-uncompetitive, isozyme-nonselective acetyl-CoA carboxylase (ACC) inhibitor. CP-610431 inhibits ACC1 and ACC2 with IC₅₀s of ~50 nM. CP-610431 can be used for the research of metabolic syndrome .

HY-P2781

3′,5′-Cyclic nucleotide phosphodiesterase	Phosphodiesterase (PDE)	Cardiovascular Disease Neurological Disease Inflammation/Immunology
3′,5′-Cyclic nucleotide phosphodiesterase is a hydrolytic enzyme that degrades cyclic 3', 5' -adenosine monophosphate (cyclic AMP). 3′,5′-Cyclic nucleotide phosphodiesterase is promising for research of cardiovascular diseases, inflammation, central nervous system disorders, and metabolic syndrome .

HY-147037

AMPK activator 7	AMPK	Cardiovascular Disease Metabolic Disease
AMPK activator 7 (compound I-3-24) is a an AMPK activator with the EC₅₀ of 8.8 nM. AMPK activator 7 can be used for the research of diseases involving AMPK, particularly diseases such as type 2 diabetes, hyperglycemia, metabolic syndrome, obesity, hypercholesterolemia and/or hypertension .

HY-W587784

Norbixin	PPAR	Metabolic Disease
Norbixin is a carotenoid that has been found in B. orellana.It binds to PPARγ in a cell-free assay (Ki = 1.15 μM) . Norbixin attenuates hyperglycemia, hyperinsulinemia, and insulin resistance, as well as decreases serum lipid levels and cardiac levels of thiobarbituric acid reactive substances (TBARS) and glutathione (GSH) in a rat model of cardio-metabolic syndrome .

HY-15790H

(S)-Elobixibat (S)-A 3309; (S)-AZD 7806	Apical Sodium-Dependent Bile Acid Transporter TNF Receptor Interleukin Related	Metabolic Disease Inflammation/Immunology
(S)-Elobixibat is the S enantiomer of Elobixibat (HY-15790). (S)-Elobixibat is an orally effective Apical Sodium-Dependent Bile (IBAT) inhibitor. (S)-Elobixibat decreases LDL cholesterol, increases serum GLP-1, promotes colon motility, and has the potential to study metabolic syndrome. (S)-Elobixibat can be used to study constipation, dyslipidemia, non-alcoholic hepatitis, and liver tumors .

HY-178857

CB1 antagonist 6	Cannabinoid Receptor	Metabolic Disease
CB1 antagonist 6 (Compound 11jE2) is an orally active CB1R antagonist, with an IC₅₀ value of 23 nM. CB1 antagonist 6 significantly reduces food intake and body weight, improves glucose tolerance and insulin resistance, and decreases serum ALT and AST levels in diet-induced obese (DIO) mice, demonstrating hepatoprotective effects. CB1 antagonist 6 can be used for the study of metabolic syndrome (obesity, diabetes) .

HY-15383

Glyparamide	Biochemical Assay Reagents	Metabolic Disease
Glyparamide is an orally active hypoglycemic compound that serves as an auxiliary active ingredient in anti-diabetic agents. Glyparamide can be used in combination with preparations of Rhodamnia cinerea extract and is applicable to the study of hyperglycemia-related disorders-specifically those involving carbohydrate metabolism disturbances-including Type 2 diabetes, metabolic syndrome, and postprandial hyperglycemia. Other notable hypoglycemic agents of significant interest include: Tolbutamide (HY-B0401), Chlorpropamide (HY-B1429), Metformin (HY-B0627), and Glimepiride (HY-B0104) .

HY-N2468R

Xylobiose (Standard) 1,4-β-D-Xylobiose (Standard); 1,4-D-Xylobiose (Standard)	Reference Standards 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-175418

LaKe	Drug Metabolite	Neurological Disease Metabolic Disease
LaKe is an orally active simple ester prodrug. LaKe is promising for research of metabolic syndrome and neurodegenerative diseases .

Cat. No.	Product Name

HY-L043

Lipid Compound Library

1,266 compounds

Lipids are a diverse and ubiquitous group of compounds which have many key biological functions, such as acting as structural components of cell membranes, serving as energy storage sources and participating in signaling pathways. Several studies suggest that bioactive lipids have effects on the treatment of some mental illnesses and metabolic syndrome. For example, DHA and EPA are important for monoaminergic neurotransmission, brain development and synaptic functioning, and are also correlated with a reduced risk of cancer and cardiovascular disease in clinical and animal studies.

MCE supplies a unique collection of 1,266 lipid and lipid derivative related compounds including triglycerides, phospholipids, sphingolipids, steroids and their structural analogues or derivatives. MCE lipid compound library can be used for research in bioactive lipids, and high throughput screening (HTS) and high content screening (HCS).

HY-L199

Non-Alcoholic Fatty Liver Disease (NAFLD) Compound Library

4,703 compounds

Non-alcoholic fatty liver disease (NAFLD) is one of the most common liver diseases worldwide and is the primary liver manifestation of metabolic syndrome. The growth of NAFLD has coincided with the obesity epidemic. NAFLD is composed of excess lipid accumulation in the liver, causing steatotoxicity, and shows a wide range of histopathological abnormalities. NAFLD may progress from simple steatosis to Non-alcoholic steatohepatitis (NASH) with or without fibrosis (NASH), and eventually to cirrhosis and hepatocellular carcinoma. To date, very few drugs have been approved for marketing specifically for the treatment of NAFLD, so increased efforts to develop NAFLD drugs are necessary.

MCE designs a unique collection of 4,703 small molecules with definite or potential anti-NAFLD activity, which is an important tool for studying the pathological mechanism of NAFLD and developing drugs for NAFLD.

HY-L246

Tonifying Traditional Chinese Medicine Monomer Compound Library

1,036 compounds

Tonifying traditional Chinese medicines occupy a central position in the traditional medical system, with their core value lying in the regulation of the body's functional state. Modern pharmacological studies have confirmed that these medicinal materials and their monomeric components possess multiple biological activities, including bidirectional immune regulation, anti-aging and lifespan extension, neuroprotection and cognitive enhancement, as well as hematopoietic and metabolic regulation. According to the traditional Chinese medicine theory of “strengthening the body’s resistance and consolidating the foundation”, tonifying medicines are mainly classified into four major categories: Qi-tonifying, Blood-tonifying, Yin-tonifying, and Yang-tonifying. This compound library strictly follows this classification system for compound collection.

Monomeric compounds derived from traditional Chinese medicines demonstrate excellent drug-like properties. They naturally possess structural diversity and clearly defined pharmacological activities, which help improve screening success rates and make them ideal tools for studying multi-target synergistic effects. This library contains 1,036 compounds, providing a material basis for investigating synergistic interactions among compounds (network pharmacology) and facilitating the development of multi-target therapeutic strategies for complex diseases such as cancer, neurodegenerative disorders, and metabolic syndrome.

HY-L034M

Anti-Aging Compound Library Mini

381 compounds

Research has shown that drugs targeting aging pathways demonstrate promising potential in models of age-related diseases such as Alzheimer's disease, cardiovascular diseases, metabolic syndrome, osteoarthritis, and various malignancies. This suggests that intervening in the biological processes of aging may enable synergistic prevention and treatment of multiple chronic diseases. Against the backdrop of the gradual elucidation of core aging mechanisms-including cellular senescence, telomere attrition, epigenetic dysregulation, and chronic inflammation anti-aging research has shifted from traditional phenotypic interventions toward targeting key pathways that regulate biological age.

The MCE Anti-Aging Compound Library Mini is precisely built upon this cutting-edge concept. It focuses on aging-related targets validated through genetic or functional studies, comprising 381 compounds designed to provide systematic research tools for aging biology and intervention strategy development. The library covers core mechanisms such as mTOR, SIRT, energy metabolism, clearance of senescent cells, optimization of mitochondrial function, and telomere maintenance. For each target, 1-5 compounds with clear activity and strong representativeness have been carefully selected, spanning the entire translational spectrum from preclinical tool molecules to clinically investigational drugs.

Cat. No.	Product Name	Target	Research Area

HY-P4153

Enlicitide chloride MK-0616 chloride	PCSK9	Cardiovascular Disease
Enlicitide chloride is an orally active inhibitor for PCSK9 that blocks the interaction between LPL receptor and PSCK9, with an IC₅₀ of 2.5 nM. Enlicitide chloride can be used in the study of cardiovascular diseases such as atherosclerosis, hypercholesterolemia, coronary heart disease, metabolic syndrome, acute coronary syndrome or related cardiovascular and cardiometabolic disorders .

HY-P1944

Apelin-13 5+ Cited Publications	Apelin Receptor (APJ)	Cardiovascular Disease Metabolic Disease
Apelin-13 is an endogenous ligand for the G-protein coupled receptor angiotensin II protein J (APJ), activating this G protein-coupled receptor with an EC₅₀ value of 0.37 nM. Apelin-13 is widely distributed in the central and peripheral nervous systems. Apelin-13 has vasodilatory and antihypertensive effects. Apelin-13 also can be used for researching type 2 diabetes and metabolic syndrome .

HY-P1944A

Apelin-13 TFA 5+ Cited Publications	Apelin Receptor (APJ)	Cardiovascular Disease Metabolic Disease
Apelin-13 TFA is an endogenous ligand for the G-protein coupled receptor angiotensin II protein J (APJ), activating this G protein-coupled receptor with an EC₅₀ value of 0.37 nM. Apelin-13 TFA has vasodilatory and antihypertensive effects. Apelin-13 TFA also can be used for researching type 2 diabetes and metabolic syndrome .

HY-P4815

Prokineticin 2 Isoform 2 (human)	Endogenous Metabolite	Neurological Disease Metabolic Disease
Prokineticin 2 Isoform 2 (human) is a hypothalamic neuropeptide. Prokineticin 2 Isoform 2 (human) decreases food intake and involves in thermoregulation and energy metabolism in rodents. Prokineticin 2 has the potential for the research of hyperglycemia, metabolic syndrome (MetS) and obesity .

HY-P3829

Beacon (47-73)	Peptides	Metabolic Disease
Beacon (47-73) is a C-terminal peptide fragment 47-73 of Beacon, and Beacon is a protein of 73 amino acid. Beacon (47-73) can be used for metabolic syndrome research .

HY-P11612

ATS-9R	Biochemical Assay Reagents	Metabolic Disease
ATS-9R is a peptide consisting of an adipocyte-targeting sequence and D-form 9-arginine. ATS-9R selectively transfects mature adipocytes by binding to prohibitin. ATS-9R allows an adipocyte-targeted gene delivery in vitro and in vivo. ATS-9R can be used for the development of an adipocyte-targeted gene carrier. ATS-9R can be used for the study of obesity as well as obesity-induced metabolic syndromes .

Cat. No.	Product Name	Category	Target	Chemical Structure

HY-100560

Abscisic acid 3 Publications Verification (S)-(+)-Abscisic acid; ABA	Structural Classification Classification of Application Fields Metabolic Disease Plants Endogenous metabolite Agricultural Research Microorganisms other families Animals Terpenoids Sesquiterpenes Abscisic acid Phytohormone Disease Research Fields Source Classification	Environmental Pollutants Endogenous Metabolite ABA Receptor Proton Pump
Abscisic acid ((S)-(+)-Abscisic acid), an orally active phytohormone in fruits and vegetables, is an endogenously produced mammalian hormone. Abscisic acid is a growth inhibitor and can regulate many aspects of plant growth and development. Abscisic acid inhibits proton pump (H ⁺-ATPase) and leads to the plasma membrane depolarization in a Ca ²⁺-dependent manner. Abscisic acid, a LANCL2 natural ligand, is a potent insulin-sensitizing compound and has the potential for pre-diabetes, type 2 diabetes and metabolic syndrome .

HY-N7075

Inulin 4 Publications Verification	Structural Classification Human Gut Microbiota Metabolites Polysaccharides Classification of Application Fields Metabolic Disease Plants Compositae Endogenous metabolite Disease Research Fields Saccharides Sophora tomentosa L. Source Classification	Endogenous Metabolite
Inulin is an orally active prebiotic targeting the intestinal microbiota, selectively promoting the proliferation and activity of beneficial bacteria such as bifidobacteria and lactic acid bacteria, and playing a role in regulating the intestinal microecology. The functions of Inulin include: Fermentation by probiotics in the colon to produce short-chain fatty acids (such as butyrate and propionate), lowering the intestinal pH and inhibiting the overgrowth of harmful bacteria; Enhancing the intestinal barrier function and reducing endotoxin translocation; Directly scavenging free radicals (such as superoxide free radicals, hydroxyl free radicals) and activating antioxidant enzymes (SOD, CAT) to reduce oxidative stress. Inulin can also be used in the study of intestinal diseases (constipation, IBD), metabolic syndrome (diabetes, obesity) and liver damage by regulating glucose and lipid metabolism (such as reducing triglycerides, improving insulin sensitivity) and immune response (enhancing NK cell activity, inhibiting inflammatory factors)[1][2][3][4].

HY-N0515

Ophiopogonin D 1 Publications Verification	Ophiopogon japonicus (L. f.) Ker-Gawl. Cardiovascular Disease Liliaceae Classification of Application Fields Plants Disease Research Fields Steroids Source Classification	PPAR NF-κB Calcium Channel Reactive Oxygen Species (ROS) ERK
Ophiopogonin D can be isolated from the tubers of Ophiopogon japonicus, is a rare naturally occurring C₂₉ steroidal glycoside. Ophiopogonin D is a CYP2J3 inducer that significantly inhibits Ang II induced NF-κB nuclear translocation, IκBα down-regulation, intracellular Ca ²⁺ overload and activation of pro-inflammatory cytokines by increasing the expression of CYP2J2/EETs and PPARα in human umbilical vein endothelial cells (HUVECs). Ophiopogonin D can inhibit isteoclastic differentiation in RAW264.7 cells. Ophiopogonin D has protective effect as an antioxidant in H₂O₂-induced endothelial injury. Ophiopogonin D blocks ERK signaling cascades. Ophiopogonin D alleviates high-fat diet-induced metabolic syndrome and changes the structure of gut microbiota in mice. Ophiopogonin D has been used against inflammatory, metabolic and cardiovascular diseases .

HY-N2468

Xylobiose 1,4-β-D-Xylobiose; 1,4-D-Xylobiose	Zea mays L. Polysaccharides Classification of Application Fields Gramineae Other Diseases Plants Disease Research Fields Saccharides Source Classification	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-124529

Lunularin	Structural Classification Human Gut Microbiota Metabolites other families Conocephalum conicum (L.) Dumort. Phenols Polyphenols Plants Endogenous metabolite Source Classification	11β-HSD Endogenous Metabolite
Lunularin is an inhibitor of 11β-hydroxysteroid dehydrogenase 1, with an IC₅₀ of 45.44 μM and a K_i of 35.8 μM against human 11β-HSD1, and an IC₅₀ of 17.39 μM and a K_i of 10.31 μM against rat 11β-HSD1. Lunularin upregulates the transcription levels of Sirt1 and Hmox1 genes in the liver. Lunularin reduces food intake and body weight gain, and decreases blood glucose levels in mice fed a high-fat diet. Lunularin inhibits LPS-induced TLR4-mediated NF-κB pathway activation and nitric oxide production. Lunularin inhibits the proliferation and colony formation of renal cancer and colon cancer cells, and exhibits cancer cell-specific cytotoxicity. Lunularin binds to the steroid-binding site of human 11β-HSD1 and the steroid/NADPH-binding region of rat 11β-HSD1, but does not inhibit 11β-HSD2 or mouse 11β-HSD1. Lunularin can be used in research related to diet-induced obesity, renal cancer, colorectal cancer, inflammatory diseases and metabolic syndrome .

HY-N10319

Artepillin C	Ketones, Aldehydes, Acids Plants Compositae Artemisia capillaris Thunb. Source Classification	Epigenetic Reader Domain Necroptosis TRP Channel
Artepillin C is an orally active CREB/CRTC2 inhibitor and TRPA1 covalent agonist (EC₅₀=1.8 μM). Artepillin C inhibits CREB/CRTC2-mediated gene transcription and downregulates BMAL1 expression to regulate glucose and lipid metabolism. Artepillin C can also activate TRPA1 channels to induce spicy taste signals. Artepillin C can inhibit tumor cell proliferation, induce necroptosis, improve insulin resistance and inhibit liver lipid synthesis. Artepillin C can be used in the study of metabolic syndrome, tumor prevention and treatment, and inflammation .

HY-N15135

Arabinoxylan (Medium viscosity)	Structural Classification Polysaccharides Antibiotics Leguminosae Pisum sativum Linn Plants Saccharides Other Antibiotics Source Classification	Interleukin Related Toll-like Receptor (TLR) Fungal
Arabinoxylan Medium viscosity is an orally active Dectin-1 splice variant modulator, glucose absorption inhibitor, and chyme viscosity enhancer. Arabinoxylan Medium viscosity inhibits particulate β-glucan-induced Dectin-1A activation and mildly suppresses Dectin-1B activation. In human dendritic cells stimulated with particulate β-glucan, Arabinoxylan Medium viscosity reduces the production of IL-10 and TNF-α, and increases the production of IL-4 and IL-23. Arabinoxylan Medium viscosity also supports antifungal immune responses without activating TLR2, TLR4 or TLR5, and does not induce cytokine production when used to stimulate human dendritic cells alone. Arabinoxylan Medium viscosity increases small intestinal chyme viscosity, gets degraded in the large intestine to produce short-chain fatty acids, reduces glucose absorption and insulin response, and improves glucose homeostasis. Arabinoxylan Medium viscosity supports microbial fermentation and the growth of beneficial microbiota in the gastrointestinal tract, prevents bile acid reabsorption, and delays starch digestion. Arabinoxylan Medium viscosity can be used in research related to type 2 diabetes, impaired glucose tolerance, and metabolic syndrome .

HY-W002304

(R)-5-Oxopyrrolidine-2-carboxylic acid	Classification of Application Fields Ketones, Aldehydes, Acids Metabolic Disease Endogenous metabolite Disease Research Fields Source Classification	Drug Derivative
(R)-5-Oxopyrrolidine-2-carboxylic acid (D-Pyroglutamic acid) is a cyclic derivative of D-glutamate. (R)-5-Oxopyrrolidine-2-carboxylic acid can be used in the research of metabolic syndrome and end-stage renal disease .

HY-W009417

Cedryl acetate	Structural Classification Classification of Application Fields Terpenoids Sesquiterpenes Taxodiaceae Metabolic Disease Plants Cunninghamia lanceolata var. konishii Disease Research Fields Source Classification	Environmental Pollutants Glycosidase
Cedryl acetate is an orally active α-glucosidase inhibitor with an IC₅₀ of 94 μM against yeast α-glucosidase. Cedryl acetate reduces high-fat diet-induced body weight gain, visceral fat pad weight, adipocyte hypertrophy, hepatic lipid accumulation, glucose intolerance, insulin resistance and gluconeogenesis. Cedryl acetate can be used in the research of obesity and obesity-related metabolic syndrome .

HY-126359

1-Stearoyl-2-linoleoyl-sn-glycero-3-phosphocholine SLPC; 18:0-18:2 PC	Structural Classification Classification of Application Fields Metabolic Disease Endogenous metabolite Disease Research Fields Lipid Source Classification	Endogenous Metabolite
1-Stearoyl-2-linoleoyl-sn-glycero-3-phosphocholine (SLPC; 18:0-18:2 PC) is an endogenous phospholipid marker molecule in the glycerophospholipid metabolic pathway. 1-Stearoyl-2-linoleoyl-sn-glycero-3-phosphocholine is a core component of the phospholipid bilayer of biological membranes and a key responsive lipid for radiation injury and cardiometabolic diseases. 1-Stearoyl-2-linoleoyl-sn-glycero-3-phosphocholine constitutes the phospholipid bilayers of cell membranes and high-density lipoprotein (HDL), and regulates the core activity of lipoprotein functional homeostasis. The content of 1-Stearoyl-2-linoleoyl-sn-glycero-3-phosphocholine in mouse serum shows a significant dose-dependent decrease with increasing ionizing radiation dose, and its level in human HDL also decreases significantly in metabolic syndrome. 1-Stearoyl-2-linoleoyl-sn-glycero-3-phosphocholine can serve as a biological dosimeter marker for ionizing radiation injury, and is used for rapid and accurate assessment of radiation absorbed dose in exposed individuals. 1-Stearoyl-2-linoleoyl-sn-glycero-3-phosphocholine can also act as a lipidomics research target for cardiometabolic diseases such as lipid metabolic syndrome and early-onset coronary heart disease .

HY-100560R

Abscisic acid (Standard) (S)-(+)-Abscisic acid (Standard); ABA (Standard)	Structural Classification Microorganisms other families Animals Terpenoids Sesquiterpenes Plants Endogenous metabolite Source Classification	Reference Standards Endogenous Metabolite Proton Pump ABA Receptor
Abscisic acid (Standard) is the analytical standard of Abscisic acid. This product is intended for research and analytical applications. Abscisic acid ((S)-(+)-Abscisic acid), an orally active phytohormone in fruits and vegetables, is an endogenously produced mammalian hormone. Abscisic acid is a growth inhibitor and can regulate many aspects of plant growth and development. Abscisic acid inhibits proton pump (H+-ATPase) and leads to the plasma membrane depolarization in a Ca2+-dependent manner. Abscisic acid, a LANCL2 natural ligand, is a potent insulin-sensitizing compound and has the potential for pre-diabetes, type 2 diabetes and metabolic syndrome .

HY-N10319R

Artepillin C (Standard)	Ketones, Aldehydes, Acids Plants Compositae Artemisia capillaris Thunb. Source Classification	Reference Standards TRP Channel Necroptosis Epigenetic Reader Domain
Artepillin C (Standard) is the analytical standard of Artepillin C (HY-N10319). This product is intended for research and analytical applications. Artepillin C is an orally active CREB/CRTC2 inhibitor and TRPA1 covalent agonist (EC₅₀=1.8 μM). Artepillin C inhibits CREB/CRTC2-mediated gene transcription and downregulates BMAL1 expression to regulate glucose and lipid metabolism. Artepillin C can also activate TRPA1 channels to induce spicy taste signals. Artepillin C can inhibit tumor cell proliferation, induce apoptosis, improve insulin resistance and inhibit liver lipid synthesis. Artepillin C can be used in the study of metabolic syndrome, tumor prevention and treatment, and inflammation .

HY-N11262

Sudachitin	Structural Classification Flavonoids Flavones Rutaceae Citrus sudachi Hort. ex Shirai. Plants Source Classification	Phosphodiesterase (PDE) Sirtuin PGC-1α p38 MAPK HSP TNF Receptor NO Synthase Apoptosis
Sudachitin is an orally active compound that potently inhibits mouse PDE1C and human PDE4B, with IC₅₀ values of 5.0 μM and 15.0 μM, respectively. Sudachitin upregulates Sirt1 and PGC‑1α expression in skeletal muscle to regulate energy metabolism and promote mitochondrial biogenesis. Sudachitin improves lipid metabolism, glucose tolerance, insulin sensitivity, energy expenditure, and fatty acid β‑oxidation. Sudachitin activates p38MAPK signaling, induces HSP27 phosphorylation and caspase‑dependent apoptosis, and blocks EGF‑driven keratinocyte migration and proliferation. Sudachitin suppresses LPS‑induced TNF‑α, NO, and iNOS expression in macrophages and shows potent anti‑inflammatory activity. Sudachitin can be used for the research of metabolic syndrome, type 2 diabetes, and psoriasis. .

HY-N0515R

Ophiopogonin D (Standard)	Ophiopogon japonicus (L. f.) Ker-Gawl. Liliaceae Plants Steroids Source Classification	Reference Standards PPAR NF-κB Calcium Channel ERK Reactive Oxygen Species (ROS)
Ophiopogonin D (Standard) is the analytical standard of Ophiopogonin D. This product is intended for research and analytical applications. Ophiopogonin D can be isolated from the tubers of Ophiopogon japonicus, is a rare naturally occurring C29 steroidal glycoside. Ophiopogonin D is a CYP2J3 inducer that significantly inhibits Ang II induced NF-κB nuclear translocation, IκBα down-regulation, intracellular Ca2+ overload and activation of pro-inflammatory cytokines by increasing the expression of CYP2J2/EETs and PPARα in human umbilical vein endothelial cells (HUVECs). Ophiopogonin D can inhibit isteoclastic differentiation in RAW264.7 cells. Ophiopogonin D has protective effect as an antioxidant in H₂O₂-induced endothelial injury. Ophiopogonin D blocks ERK signaling cascades. Ophiopogonin D alleviates high-fat diet-induced metabolic syndrome and changes the structure of gut microbiota in mice. Ophiopogonin D has been used against inflammatory, metabolic and cardiovascular diseases .

HY-N7394

Galbacin (3S)-Zuonin A	Natural Products Virola surinamensis (Rol. ex Rottb.) Warb. Myristicaceae Plants Source Classification	AMPK
Galbacin ((3S)-Zuonin A), the epimer of (-)-Zuonin A (HY-N7394A), is a AMPK activator. Galbacin can be isolated from Myristica fragrans (nutmeg). Galbacin stimulates AMPK enzyme in differentiated C2C12 cells. Galbacin also has anticancer activity, and inhibits the proliferation of lymphocyte and tumor cells. Galbacin prevents weight gain in diet-induced mice model. Galbacin can be used for metabolic syndrome (including obesity and type-2 diabetes) and caners research .

HY-177003

SM (d18:1/15:0)	Animals Lipid Source Classification	Phospholipase
SM (d18:1/15:0) is a sphingomyelinase inhibitor. SM (d18:1/15:0) is promising for research of neurodegenerative diseases (e.g., Alzheimer's) and metabolic syndrome .

HY-N7687

Caulophyllogenin	Triterpenes Classification of Application Fields Leguminosae Terpenoids Acacia catechu (Linn. f.) Willd. Plants Disease Research Fields Inflammation/Immunology Source Classification	PPAR
Caulophyllogenin is a triterpene saponin extracted from M. polimorpha. Caulophyllogenin is a partial PPARγ agonist, with an EC₅₀ of 12.6 μM. Caulophyllogenin can be used for the research of type-2 diabetes, obesity, metabolic syndrome and inflammation .

HY-W587784

Norbixin	Bixaceae Bixa orellana Linn. Ketones, Aldehydes, Acids Plants Source Classification	PPAR
Norbixin is a carotenoid that has been found in B. orellana.It binds to PPARγ in a cell-free assay (Ki = 1.15 μM) . Norbixin attenuates hyperglycemia, hyperinsulinemia, and insulin resistance, as well as decreases serum lipid levels and cardiac levels of thiobarbituric acid reactive substances (TBARS) and glutathione (GSH) in a rat model of cardio-metabolic syndrome .

HY-N2468R

Xylobiose (Standard) 1,4-β-D-Xylobiose (Standard); 1,4-D-Xylobiose (Standard)	Structural Classification Zea mays L. Polysaccharides Gramineae Plants Saccharides Source Classification	Reference Standards 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-W009417R

Cedryl acetate (Standard)	Structural Classification Natural Products Taxodiaceae Plants Cunninghamia lanceolata var. konishii Source Classification	Reference Standards Glycosidase Environmental Pollutants
Cedryl acetate (Standard) is the analytical standard of Cedryl acetate. This product is intended for research and analytical applications. Cedryl acetate is an orally active α-glucosidase inhibitor with an IC₅₀ of 94 μM against yeast α-glucosidase. Cedryl acetate reduces high-fat diet-induced body weight gain, visceral fat pad weight, adipocyte hypertrophy, hepatic lipid accumulation, glucose intolerance, insulin resistance and gluconeogenesis. Cedryl acetate can be used in the research of obesity and obesity-related metabolic syndrome .

HY-N16477

Ciceritol	Structural Classification Leguminosae Cicer arietinum L. Plants Saccharides Monosaccharides Source Classification	Drug Metabolite
Ciceritol is a dietary fiber component/prebiotic targeting α-galactosidic linkage oligosaccharides. Ciceritol selectively promotes proliferation of beneficial bacteria like Bifidobacteria. Ciceritol is promising for research of gut microbiota-related diseases (e.g., irritable bowel syndrome, metabolic syndrome) .

HY-W002304R

(R)-5-Oxopyrrolidine-2-carboxylic acid (Standard)	Structural Classification Ketones, Aldehydes, Acids Endogenous metabolite Source Classification	Reference Standards Drug Derivative
(R)-5-Oxopyrrolidine-2-carboxylic acid (Standard) is the analytical standard of (R)-5-Oxopyrrolidine-2-carboxylic acid (HY-W002304). This product is intended for research and analytical applications. (R)-5-Oxopyrrolidine-2-carboxylic acid (D-Pyroglutamic acid) is a cyclic derivative of D-glutamate. (R)-5-Oxopyrrolidine-2-carboxylic acid can be used in the research of metabolic syndrome and end-stage renal disease .

Cat. No.	Product Name	Chemical Structure

HY-164236S

C22 Glucosylceramide (d18:1/22:0)-d4

C22 Glucosylceramide (d18:1/22:0)-d₄ is deuterium labeled C22 Glucosylceramide (d18:1/22:0) (HY-164236). C22 Glucosylceramide (d18:1/22:0) is a bioactive sphingolipid composed of a d18:1 sphingoid base and a 22:0 fatty acid chain. C22 Glucosylceramide (d18:1/22:0) specifically exists in Doxorubicin (HY-15142A)-sensitive cancer cells, and its circulating concentration is positively correlated with the incidence of cardiovascular events. C22 Glucosylceramide (d18:1/22:0) has been widely used in research related to cardiovascular diseases, hypercholesterolemia, metabolic syndrome, breast adenocarcinoma and other fields .

HY-15790S

Elobixibat-d5

Elobixibat-d5 is the deuterium labeled Elobixibat (HY-15790). Elobixibat (A 3309; AZD 7806) is orally active, bile acid transporter (IBAT) inhibitor with IC₅₀ values ??of 0.53 nM (human IBAT), 0.13 nM (mouse IBAT), and 5.8 nM (canine IBAT). Elobixibat can lower LDL cholesterol, increase serum GLP-1, promote colonic motility, and has the potential to treat metabolic syndrome. Elobixibat can be used in the study of chronic functional constipation (CIC), dyslipidemia, non-alcoholic hepatitis, and liver tumors in the elderly .

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