Benzoxazole Derivatives as Potent FXR and PPARα Dual Agonists With Anti‐Fibrotic and Metabolic Regulatory Effects
Mi‐Jeong Kim, Dong‐Gyun Han, Hyeon Seo Park, Sugyeong Ha, Sang Gyun Noh, Jeongwon Kim, Ji‐an Yoo, Byeong Moo Kim, Khas‐Erdene Battogtokh, Soohwan Oh, Youngmi Jung, Youngsuk Jung, Hae Young Chung, Hyung Ryong Moon, In‐Soo Yoon, Ki Wung Chung

TL;DR
MHY5396, a benzoxazole compound, activates two receptors and reduces fibrosis and metabolic issues in liver and kidney models.
Contribution
MHY5396 is a novel dual FXR and PPARα agonist with strong anti-fibrotic and metabolic benefits.
Findings
MHY5396 reduces lipid accumulation and liver damage in fibrosis models.
It suppresses TGFβ-induced fibrosis in hepatic stellate cells and renal fibrosis in mice.
MHY5396 is well absorbed orally and primarily metabolized by CYP1A2.
Abstract
Fibrotic disease involves excessive fibrous connective tissue accumulation in organs, leading to dysfunction and irreversible damage. Metabolic alterations can sometimes contribute to fibrosis development. This study aimed to develop dual agonists for farnesoid X receptor (FXR) and peroxisome proliferator‐activated receptor alpha (PPARα), targeting anti‐fibrosis and metabolic regulation. Benzoxazole derivatives were found to potently activate both FXR and PPARα in hepatocytes. Among them, MHY5396 showed the most potent effects with low EC50 values. MHY5396 reduced lipid synthesis and enhanced beta‐oxidation in hepatocytes, decreasing lipid accumulation. It also suppressed TGFβ‐induced fibrosis in hepatic stellate cells. In a methionine/choline‐deficient diet mouse model, MHY5396 reduced lipid accumulation, liver damage, and fibrosis. In a thioacetamide‐induced liver fibrosis model,…
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Taxonomy
TopicsPeroxisome Proliferator-Activated Receptors · Adipose Tissue and Metabolism · Metabolism, Diabetes, and Cancer
