PPARγ Modulator

PPARγ Modulators (6):

Cat. No.	Product Name	Effect	Purity

HY-101064

Fmoc-leucine	Modulator	99.91%
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.

HY-108022A

Azemiglitazone potassium	Modulator	99.53%
Azemiglitazone potassium (MSDC-0602K), a PPARγ-sparing thiazolidinedione (Ps-TZD), binds to PPARγ with the IC₅₀ of 18.25 μM. Azemiglitazone potassium modulates the mitochondrial pyruvate carrier (MPC). Azemiglitazone potassium can be used for the research of fatty liver including dysfunctional lipid metabolism, inflammation, and insulin resistance. Azemiglitazone potassium, an insulin sensitizer, improves insulinemia and fatty liver disease in mice, alone and in combination with Liraglutide.

HY-147757

PPARγ/δ modulator 1	Modulator
PPARγ/δ modulator 1 (compound 3e) is a potent PPAR modulator. PPARγ/δ modulator 1 is a PPARδ antagonist and a PPARγ partial agonist , with K_i values of 14.4 nM and 5.31 μM, respectively. PPARγ/δ modulator 1 has the EC₅₀ of 7.3 and 12.6 μM for PPARδ corepression and adiponectin production, respectively.

HY-116521

SR2595	Modulator
SR2595 is an inverse agonist of PPARγ with an IC₅₀ of 30 nM.

HY-160159

PPARγ modulator-1	Modulator
Anticancer agent 183 (example 48) is a non-agonistic PPARG modulator. Anticancer agent 183 has a high affinity to PPARG (PPARγ). Anticancer agent 183 inhibits kinase-mediated phosphorylation of PPARG. Anticancer agent 183 can used for research on metabolic diseases to avoid side effects.

HY-161926

YGT-31	Modulator
YGT-31 is a modulator for PPARγ with an IC₅₀ of 1.72 μM, and a K_i 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.

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