基于结构的动力学稳定剂设计可改善转甲状腺素淀粉样变性。
Structure-based design of kinetic stabilizers that ameliorate the transthyretin amyloidoses.
机构信息
Department of Molecular Biology, The Scripps Research Institute, La Jolla, CA 92037, USA.
出版信息
Curr Opin Struct Biol. 2010 Feb;20(1):54-62. doi: 10.1016/j.sbi.2009.12.009. Epub 2010 Feb 3.
Abstract
Small molecules that bind to normally unoccupied thyroxine (T(4)) binding sites within transthyretin (TTR) in the blood stabilize the tetrameric ground state of TTR relative to the dissociative transition state and dramatically slow tetramer dissociation, the rate-limiting step for the process of amyloid fibril formation linked to neurodegeneration and cell death. These so-called TTR kinetic stabilizers have been designed using structure-based principles and one of these has recently been shown to halt the progression of a human TTR amyloid disease in a clinical trial, providing the first pharmacologic evidence that the process of amyloid fibril formation is causative. Structure-based design has now progressed to the point where highly selective, high affinity TTR kinetic stabilizers that lack undesirable off-target activities can be produced with high frequency.
摘要
小分子与血液中转甲状腺素蛋白(TTR)中正常未占据的甲状腺素(T(4))结合位点结合,相对于解离过渡态稳定 TTR 的四聚体基态,并显著减缓四聚体解离,这是与神经退行性变和细胞死亡相关的淀粉样纤维形成过程的限速步骤。这些所谓的 TTR 动力学稳定剂是使用基于结构的原理设计的,其中一种最近在临床试验中被证明可以阻止人类 TTR 淀粉样变性疾病的进展,为淀粉样纤维形成过程是致病原因提供了第一个药理学证据。基于结构的设计现在已经发展到可以高频产生缺乏不良非靶点活性的高度选择性、高亲和力的 TTR 动力学稳定剂的地步。
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