Metabolic dysfunction-associated steatohepatitis (MASH) has become a serious threat to human health, which exhibited an increasing prevalence globally. Recently, the farnesoid X receptor (FXR) has been identified as a promising strategy for the treatment of MASH by regulating multiple pathogenesis. In this study, a new series of FXR agonists bearing piperidine scaffold was designed to reduce the high lipophilicity of the existing FXR agonists. After comprehensive multiparameter optimization, LZ-007 was discovered as a highly potent FXR agonist with suitable stability in liver microsomes of multiple species. LZ-007 exhibited highly oral bioavailability and targeted tissue exposure in the liver and ileum, while the plasma exposure is low, which might minimize the systemic side effects. Moreover, LZ-007 was significantly up-regulated the expressions of FXR and its downstream genes in the liver and ileum. In MASH model, LZ-007 exerted potent anti-MASH effects by regulating the multiple signal pathways related to lipid metabolism, oxidative stress, inflammation and fibrosis. In a 30-day toxicity study, no apparent adverse effects were observed in LZ-007 treated groups, even at the high doses of 250 and 500 mg/kg. With the positive pharmacodynamics and safety profiles, LZ-007 is worthy of further evaluation as a new anti-MASH agent.
Keywords: FXR; Fibrosis; MASH; Molecular Dynamics; SAR.
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