分子动力学模拟揭示MGL-3196对甲状腺激素受体β耐药的潜在机制

Molecular Dynamic Simulation To Reveal the Mechanism Underlying MGL-3196 Resistance to Thyroxine Receptor Beta.

作者信息

Lu Yi, Chen Chun, Zhuang Deyi, Qian Liling

机构信息

Fujian Key Laboratory of Neonatal Diseases, Xiamen Key Laboratory of Neonatal Diseases, Xiamen Childreǹs Hospital (Children's Hospital of Fudan University at Xiamen), Xiamen 361006, China.

Department of Pediatrics, Chidren's Hospital of Fudan University, Shanghai 201102, China.

出版信息

ACS Omega. 2024 May 1;9(19):20957-20965. doi: 10.1021/acsomega.4c00089. eCollection 2024 May 14.

DOI:10.1021/acsomega.4c00089

PMID:38764645

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11097192/

Abstract

Thyroxine receptor beta (TRβ) is a ligand-dependent nuclear receptor that participates in regulating multiple biological processes, particularly playing an important role in lipid metabolism regulation. TRβ is currently a popular therapeutic target for nonalcoholic steatohepatitis (NASH), while no drugs have been approved to treat this disease. MGL-3196 (Resmetirom) is the first TRβ agonist that has succeeded in phase III clinical trials for the treatment of NASH; therefore, studying its molecular mechanism of action is of great significance. In this study, we employed molecular dynamic simulation to investigate the interaction mode between MGL-3196 and TRβ at the all-atom level. More importantly, by comparing the binding patterns of MGL-3196 in several prevalent TRβ mutants, it was identified that the mutations R243Q and H435R located, respectively, around and within the ligand-binding pocket of TRβ cause TRβ to be insensitive to MGL-3196. This indicates that patients with NASH carrying these two mutations may exhibit resistance to the medication of MGL-3196, thereby highlighting the potential impact of TRβ mutations on TRβ-targeted treatment of NASH and beyond.

摘要

甲状腺激素受体β（TRβ）是一种依赖配体的核受体，参与调节多种生物学过程，尤其在脂质代谢调节中发挥重要作用。TRβ目前是非酒精性脂肪性肝炎（NASH）的热门治疗靶点，但尚无药物获批用于治疗该疾病。MGL-3196（Resmetirom）是首个在NASH治疗的III期临床试验中取得成功的TRβ激动剂；因此，研究其分子作用机制具有重要意义。在本研究中，我们采用分子动力学模拟在全原子水平上研究MGL-3196与TRβ之间的相互作用模式。更重要的是，通过比较MGL-3196在几种常见TRβ突变体中的结合模式，发现分别位于TRβ配体结合口袋周围和内部的R243Q和H435R突变导致TRβ对MGL-3196不敏感。这表明携带这两种突变的NASH患者可能对MGL-3196药物表现出耐药性，从而突出了TRβ突变对NASH及其他疾病TRβ靶向治疗的潜在影响。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/b89d/11097192/f9203b827a27/ao4c00089_0001.jpg

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分子动力学模拟揭示MGL-3196对甲状腺激素受体β耐药的潜在机制

Molecular Dynamic Simulation To Reveal the Mechanism Underlying MGL-3196 Resistance to Thyroxine Receptor Beta.

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