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Results for "

db/db mice

" in MedChemExpress (MCE) Product Catalog:

19

Inhibitors & Agonists

3

Peptides

3

Natural
Products

2

Isotope-Labeled Compounds

Cat. No. Product Name Target Research Areas Chemical Structure
  • HY-153617
    FOXO1-IN-3

    		FOXO Metabolic Disease
    FOXO1-IN-3 is a highly-selective and orally active FOXO1 inhibitor. FOXO1-IN-3 reduces hepatic glucose production in mice. FOXO1-IN-3 improves insulin sensitivity and glucose control in db/db mice without causing weight gain .
    FOXO1-IN-3
  • HY-131334
    AMPK activator 4

    		AMPK Metabolic Disease
    AMPK activator 4 is a potent AMPK activator without inhibition of mitochondrial complex I. AMPK activator 4 selectively activates AMPK in the muscle tissues. AMPK activator 4 dose-dependently improves glucose tolerance in normal mice, and significantly lowers fasting blood glucose level and ameliorates insulin resistance in db/db diabetic mice. Anti-hyperglycemic effect .
    AMPK activator 4
  • HY-101064
    Fmoc-leucine

    N-FMOC-leucine; NPC 15199; NSC 334290

    		 PPAR Metabolic Disease
    Fmoc-leucine is a selective PPARγ modulator. Fmoc-leucine activates PPARγ with a lower potency but a similar maximal efficacy than rosiglitazone. Fmoc-leucine improves insulin sensitivity in normal, diet-induced glucose-intolerant, and in diabetic db/db mice. Fmoc-leucine has a lower adipogenic activity .
    Fmoc-leucine
  • HY-101064S3
    Fmoc-leucine-d10

    		PPAR Metabolic Disease
    Fmoc-leucine-d10 is the deuterium labeled Fmoc-leucine. Fmoc-leucine is a selective PPARγ modulator. Fmoc-leucine activates PPARγ with a lower potency but a similar maximal efficacy than rosiglitazone. Fmoc-leucine improves insulin sensitivity in normal, diet-induced glucose-intolerant, and in diabetic db/db mice. Fmoc-leucine has a lower adipogenic activity[1].
    Fmoc-leucine-d10
  • HY-124244
    DB-959

    PPARδ/γ agonist 1

    		 PPAR Neurological Disease
    DB-959 (PPARδ/γ agonist 1) is a potent PPAR agonist targeting PPARδ/γ. DB-959 improves spatial learning and memory in mice induced by Streptozotocin (HY-13753) and has the potential to improve Alzheimer's disease (AD). .
    DB-959
  • HY-P10312
    SPN009

    		GLP Receptor Metabolic Disease
    SPN009 (Sequence 3) is a GLP-1 Receptor agonist, with EC50 of 2.84 nM. SPN009 attenuates the type II diabetes in DB/DB mice models .
    SPN009
  • HY-128530
    Tetrathiomolybdate

    		Cuproptosis Cardiovascular Disease Metabolic Disease Inflammation/Immunology Cancer
    Tetrathiomolybdate, an orally active anti-copper agent, reduces copper levels in the body. Tetrathiomolybdate has a protective effect on collagen-induced arthritis in mice. Tetrathiomolybdate also reduces blood sugar, but has no effect on mice with hereditary diabetes (db/db). Tetrathiomolybdate inhibit angiogenesis, also shows antiangiogenic effects in malignant pleural mesothelioma .
    Tetrathiomolybdate
  • HY-P5578
    A8SGLP-1

    		GCGR Metabolic Disease
    A8SGLP-1 is an orally active GLP-1 analogue that the alanine at position 8 substituted with serine. A8SGLP-1 reduces blood glucose in db/db mice without affecting its function .
    A8SGLP-1
  • HY-P5578A
    A8SGLP-1 TFA

    		GCGR Metabolic Disease
    A8SGLP-1 TFA is an orally active GLP-1 analogue that the alanine at position 8 substituted with serine. A8SGLP-1 TFA reduces blood glucose in db/db mice without affecting its function .
    A8SGLP-1 TFA
  • HY-117446
    AS-1669058

    		GPR119 Metabolic Disease
    AS-1669058 is a GPR119 agonist and a potential inhibitor of type 2 diabetes. AS-1669058 induces insulin secretion in response to high blood glucose levels in vitro and in vivo and increases insulin promoter activity. In animal studies, AS-1669058 improved glucose tolerance and reduced blood glucose levels in db/db mice .
    AS-1669058
  • HY-117446A
    AS-1669058 free base

    		GPR119 Metabolic Disease
    AS-1669058 free base is a GPR119 agonist and a potential inhibitor of type 2 diabetes. AS-1669058 free base induces insulin secretion induced by high blood glucose levels in vitro and in vivo and increases insulin promoter activity. In animal studies, AS-1669058 free base improved glucose tolerance and reduced blood glucose levels in db/db mice.
    AS-1669058 free base
  • HY-101064S2
    Fmoc-leucine-d3

    N-FMOC-leucine-d3; NPC 15199-d3; NSC 334290-d3

    		 PPAR Metabolic Disease
    Fmoc-leucine-d3 is the deuterium labeled Fmoc-leucine. Fmoc-leucine is a selective PPARγ modulator. Fmoc-leucine activates PPARγ with a lower potency but a similar maximal efficacy than rosiglitazone. Fmoc-leucine improves insulin sensitivity in normal, diet-induced glucose-intolerant, and in diabetic db/db mice. Fmoc-leucine has a lower adipogenic activity[1].
    Fmoc-leucine-d3
  • HY-138842
    DDN

    		Insulin Receptor Akt ERK Metabolic Disease
    DDN is a selective insulin receptor (Insulin Receptor) activator, an insulin sensitizer, and a glucose-lowering insulin mimetic with oral bioavailability. DDN can directly bind to the receptor kinase domain and induce Akt and ERK phosphorylation, and it can also enhance insulin's effect on glucose uptake. DDN significantly reduces blood glucose levels in wild-type and diabetic ob/ob and db/db mice .
    DDN
  • HY-161926
    YGT-31

    		PPAR Metabolic Disease
    YGT-31 is a modulator for PPARγ with an IC50 of 1.72 μM, and a Ki of 0.62 μM. YGT-31 reduces blood glucose levels and improves insulin resistance in db/db mice type 2 diabetes models, through inhibition of CDK5-mediated PPARγ-Ser273 phosphorylation. YGT-31 exhibits anti-hepatic steatosis effect in mice non-alcoholic fatty liver disease (NAFLD) model .
    YGT-31
  • HY-120657
    9-PAHSA

    		Endogenous Metabolite Cardiovascular Disease Inflammation/Immunology
    9-PAHSA is an orally available anti-inflammatory lipid that lowers blood sugar and reduces inflammation. 9-PAHSA also improved carotid vascular calcification and attenuates cardiac hypertrophy and dysfunction in db/db mice. 9-PAHSA increases the viability of steatosis primary mouse hepatocytes (PMH). 9-PAHSA can be used in research on diabetes, inflammation, and cardiovascular disease .
    9-PAHSA
  • HY-113365
    Cholestenone

    4-Cholesten-3-one

    		 Endogenous Metabolite Infection Metabolic Disease
    Cholestenone (4-cholesten-3-one) is an orally available antimicrobial agent that is metabolized primarily in the liver as an intermediate oxidation product of cholesterol. Cholestenone inhibits human dermal fibroblast migration and fights Helicobacter pylori infection in vitro and in mouse models by inhibiting cholesterol-α-D-glucopyranoside (CGL). Cholestenone also alleviates metabolic disorders caused by obesity in db/db mice .
    Cholestenone
  • HY-112234
    L-Sepiapterin

    Sepiapterin

    		 Endogenous Metabolite Cancer
    L-Sepiapterin (Sepiapterin) is a precursor of the endothelial nitric oxide synthase (eNOS) cofactor tetrahydrobiopterin (BH4). L-Sepiapterin improves endothelial dysfunction in small mesenteric arteries from db/db mice, and induces angiogenesis. L-Sepiapterin inhibits cell proliferation and migration of ovarian cancer cells via down-regulation of p70 S6K-dependent VEGFR-2 expression .
    L-Sepiapterin
  • HY-18555
    TMPA
    2 Publications Verification

    		 Nuclear Hormone Receptor 4A/NR4A AMPK Metabolic Disease Inflammation/Immunology Cancer
    TMPA is a high-affinity Nur77 antagonist that binds to Nur77 leading to the release and shuttling of LKB1 in the cytoplasm to activate AMPKα. TMPA effectively lowers blood glucose and attenuates insulin resistance in type II db/db, high-fat diet and streptozotocin-induced diabetic mice. TMPA reduces RICD (restimulation-induced cell death) in human T cells, can also be used in studies of cancer and T-cell apoptosis dysregulation .
    TMPA
  • HY-126969
    C333H

    		PPAR Metabolic Disease
    C333H is a selective PPARγ modulator with insulin-sensitizing and hypoglycemic activities. C333H exhibits similar insulin-sensitizing effects to thiazolidinediones (TZDs) in diabetic mouse models without significantly increasing body weight or adipose tissue weight. C333H increases circulating high molecular weight adiponectin isoform levels in diabetic db/db mice, reduces serine phosphorylation of PPARγ 273 in brown adipose tissue, and selectively modulates the expression of specific PPARγ target genes in adipose tissue. Express. C333H exhibits weak recruitment of co-activators and weak dissociation of co-repressors in vitro. These properties suggest that C333H may be a potential inhibitor of type 2 diabetes .
    C333H

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