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转甲状腺素淀粉样变性:从阐明与病理学相关的聚集分子机制到获得监管机构批准的药物。

The transthyretin amyloidoses: from delineating the molecular mechanism of aggregation linked to pathology to a regulatory-agency-approved drug.

机构信息

Department of Chemistry and The Skaggs Institute for Chemical Biology, The Scripps Research Institute, La Jolla, CA 92037, USA.

出版信息

J Mol Biol. 2012 Aug 10;421(2-3):185-203. doi: 10.1016/j.jmb.2011.12.060. Epub 2012 Jan 5.

DOI:10.1016/j.jmb.2011.12.060
PMID:22244854
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3350832/
Abstract

Transthyretin (TTR) is one of the many proteins that are known to misfold and aggregate (i.e., undergo amyloidogenesis) in vivo. The process of TTR amyloidogenesis causes nervous system and/or heart pathology. While several of these maladies are associated with mutations that destabilize the native TTR quaternary and/or tertiary structure, wild-type TTR amyloidogenesis also leads to the degeneration of postmitotic tissue. Over the past 20 years, much has been learned about the factors that influence the propensity of TTR to aggregate. This biophysical information led to the development of a therapeutic strategy, termed "kinetic stabilization," to prevent TTR amyloidogenesis. This strategy afforded the drug tafamidis which was recently approved by the European Medicines Agency for the treatment of TTR familial amyloid polyneuropathy, the most common familial TTR amyloid disease. Tafamidis is the first and currently the only medication approved to treat TTR familial amyloid polyneuropathy. Here we review the biophysical basis for the kinetic stabilization strategy and the structure-based drug design effort that led to this first-in-class pharmacologic agent.

摘要

转甲状腺素蛋白(TTR)是体内已知的许多错误折叠和聚集(即发生淀粉样变)的蛋白质之一。TTR 淀粉样变的过程导致神经系统和/或心脏病理学。虽然其中一些疾病与不稳定天然 TTR 四级和/或三级结构的突变有关,但野生型 TTR 淀粉样变也会导致有丝分裂后组织退化。在过去的 20 年中,人们已经了解了许多影响 TTR 聚集倾向的因素。这些生物物理信息导致了一种治疗策略的发展,称为“动力学稳定化”,以防止 TTR 淀粉样变。该策略提供了 tafamidis 药物,该药物最近获得了欧洲药品管理局的批准,用于治疗最常见的家族性 TTR 淀粉样变神经病,即 TTR 家族性淀粉样多神经病。Tafamidis 是第一种也是目前唯一一种批准用于治疗 TTR 家族性淀粉样多神经病的药物。本文综述了动力学稳定化策略的生物物理基础以及基于结构的药物设计工作,这些工作促成了这种首创的类药制剂。

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