The heparan sulfate mimetic Muparfostat aggravates steatohepatitis in obese mice due to its binding affinity to lipoprotein lipase

Zhang, Jia; Li, Kai; Sun, Haoran; Sun, Shaokun; Zhu, Yan; Ge, Yu-Ting; Wu, Yuxuan; Zhou, Qin-Yao; Li, Guan-Ting; Chang, Xin; Ding, Ying; Han, Xiao

doi:10.1111/bph.16047

British J Pharmacology

2023

DOI: 10.1111/bph.16047

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The heparan sulfate mimetic Muparfostat aggravates steatohepatitis in obese mice due to its binding affinity to lipoprotein lipase

Jia Zhang

Kai Li

Haoran Sun

et al.

Abstract: Background and Purpose Heparanase is the only confirmed endoglycosidase that cleaves heparan sulfate (HS), a ubiquitous glycosaminoglycan with various essential roles in multiple pathological processes. Thus, the development of heparanase inhibitors has become an attractive strategy for drug discovery, especially in tumour therapy, in which HS mimetics are the most promising compounds. The various biological effects of heparanase also suggest a role for HS mimetics in many non‐cancer indications, such as type … Show more

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Cited by 2 publications

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Slow Metabolism–Driven Amplification of Hepatic PPARγ Agonism Mediates Benzbromarone‐Induced Obesity‐Specific Liver Injury

Li,

Hu,

Zhao

et al. 2024

Advanced Science

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Obesity and nonalcoholic fatty liver disease (NAFLD) are established risk factors for drug‐induced liver injury (DILI). The previous study demonstrates that benzbromarone (BBR), a commonly prescribed pharmaceutical agent for managing gout and hyperuricemia, exacerbates hepatic steatosis and liver injury specifically in obese individuals. However, the precise mechanism underpinning this adverse effect remains incompletely elucidated. Given the significance of BBR and its analogs in anti‐gout/hyperuricemia drug discovery, elucidating the mechanism by which BBR exacerbates obesity‐specific DILI warrants further investigation. In this study, through a combined multi‐omics, pharmacological, and pharmacokinetic approaches, it is found that BBR‐induced obesity‐specific DILI is primarily through the potentiation of peroxisome proliferator‐activated receptor gamma (PPARγ) signaling pathways. Further in vivo and in vitro pharmacokinetic analyses reveal that obese db/db mice exhibited a diminished capacity to metabolize BBR in their livers. This reduction leads to prolonged retention of BBR, subsequently resulting in chronic and sustained hepatic PPARγ agonism. This study demonstrates that a slow metabolism‐driven amplification of hepatic PPARγ agonism mediates BBR‐induced obesity‐specific hepatic steatosis and subsequent DILI, which also emphasizes the importance of the reduced hepatic drug metabolism capacity in patients with obesity or pre‐existing NAFLD in both clinical practice and drug discovery processes.

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Slow Metabolism–Driven Amplification of Hepatic PPARγ Agonism Mediates Benzbromarone‐Induced Obesity‐Specific Liver Injury

Li,

Hu,

Zhao

et al. 2024

Advanced Science

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The GPIHBP1-LPL complex and its role in plasma triglyceride metabolism: Insights into chylomicronemia

Jiang,

Ren,

Yang

et al. 2023

Biomedicine & Pharmacotherapy

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The heparan sulfate mimetic Muparfostat aggravates steatohepatitis in obese mice due to its binding affinity to lipoprotein lipase

Cited by 2 publications

References 43 publications

Slow Metabolism–Driven Amplification of Hepatic PPARγ Agonism Mediates Benzbromarone‐Induced Obesity‐Specific Liver Injury

Slow Metabolism–Driven Amplification of Hepatic PPARγ Agonism Mediates Benzbromarone‐Induced Obesity‐Specific Liver Injury

The GPIHBP1-LPL complex and its role in plasma triglyceride metabolism: Insights into chylomicronemia

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