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评估突变和配体结合对转甲状腺素蛋白同源四聚体动力学的影响。

Evaluating the effect of mutations and ligand binding on transthyretin homotetramer dynamics.

作者信息

Saldaño Tadeo E, Zanotti Giuseppe, Parisi Gustavo, Fernandez-Alberti Sebastian

机构信息

Universidad Nacional de Quilmes/CONICET, Bernal, Argentina.

Department of Biomedical Science, University of Padua, Padova, Italy.

出版信息

PLoS One. 2017 Jul 13;12(7):e0181019. doi: 10.1371/journal.pone.0181019. eCollection 2017.

DOI:10.1371/journal.pone.0181019
PMID:28704493
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5509292/
Abstract

Native transthyretin (TTR) homotetramer dissociation is the first step of the fibrils formation process in amyloid disease. A large number of specific point mutations that destabilize TTR quaternary structure have shown pro-amyloidogenic effects. Besides, several compounds have been proposed as drugs in the therapy of TTR amyloidosis due to their TTR tetramer binding affinities, and therefore, contribution to its integrity. In the present paper we have explored key positions sustaining TTR tetramer dynamical stability. We have identified positions whose mutations alter the most the TTR tetramer equilibrium dynamics based on normal mode analysis and their response to local perturbations. We have found that these positions are mostly localized at β-strands E and F and EF-loop. The monomer-monomer interface is pointed out as one of the most vulnerable regions to mutations that lead to significant changes in the TTR-tetramer equilibrium dynamics and, therefore, induces TTR amyloidosis. Besides, we have found that mutations on residues localized at the dimer-dimer interface and/or at the T4 hormone binding site destabilize the tetramer more than the average. Finally, we were able to compare several compounds according to their effect on vibrations associated to the ligand binding. Our ligand comparison is discussed and analyzed in terms of parameters and measurements associated to TTR-ligand binding affinities and the stabilization of its native state.

摘要

天然转甲状腺素蛋白(TTR)同源四聚体解离是淀粉样疾病中原纤维形成过程的第一步。大量使TTR四级结构不稳定的特定位点突变已显示出促淀粉样变性作用。此外,由于几种化合物对TTR四聚体具有结合亲和力,因此对其完整性有贡献,已被提议作为治疗TTR淀粉样变性的药物。在本文中,我们探索了维持TTR四聚体动态稳定性的关键位置。我们基于正常模式分析及其对局部扰动的响应,确定了那些突变对TTR四聚体平衡动力学改变最大的位置。我们发现这些位置大多位于β链E和F以及EF环。单体 - 单体界面被指出是最易受突变影响的区域之一,这些突变会导致TTR四聚体平衡动力学发生显著变化,从而引发TTR淀粉样变性。此外,我们发现位于二聚体 - 二聚体界面和/或T4激素结合位点的残基突变比平均情况更能使四聚体不稳定。最后,我们能够根据几种化合物对与配体结合相关振动的影响进行比较。我们根据与TTR - 配体结合亲和力及其天然状态稳定化相关的参数和测量结果,对配体比较进行了讨论和分析。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/472e/5509292/c33a9012edf8/pone.0181019.g008.jpg
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