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非洲特异性A563T变异诱导的钙通道TRPV5结构和动力学变化的分子模拟

Molecular Modeling of the Structural and Dynamical Changes in Calcium Channel TRPV5 Induced by the African-Specific A563T Variation.

作者信息

Wang Lingyun, Holmes Ross P, Peng Ji-Bin

机构信息

Division of Nephrology, Department of Medicine, Nephrology Research and Training Center and ‡Department of Urology, University of Alabama at Birmingham , Birmingham, Alabama 35294, United States.

出版信息

Biochemistry. 2016 Mar 1;55(8):1254-64. doi: 10.1021/acs.biochem.5b00732. Epub 2016 Feb 15.

DOI:10.1021/acs.biochem.5b00732
PMID:26837804
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5304435/
Abstract

Transient receptor potential cation channels, vanilloid subfamily, member 5 (TRPV5) plays a key role in active Ca(2+) reabsorption in the kidney. Variations in TRPV5 occur at high frequency in African populations and may contribute to their higher efficiency of Ca(2+) reabsorption. One of the African specific variations, A563T, exhibits increased Ca(2+) transport ability. However, it is unclear how this variation influences the channel pore. On the basis of the structure of TRPV1, a TRPV5 model was generated to simulate the structural and dynamical changes induced by the A563T variation. On the basis of this model, amino acid residue 563 interacts with V540, which is one residue away from the key residue, D542, involved in Ca(2+) selectivity and Mg(2+) blockade. The A563T variation increases secondary structure stability and reduces dynamical motion of D542. In addition, the A563T variation alters the electrostatic potential of the outer surface of the pore. Differences in contact between selective filter residues and residue 563 and in electrostatic potential between the two TRPV5 variants were also observed in another model derived from an alternative alignment in the selective filters between TRPV5 and TRPV1. These findings indicate that the A563T variation induces structural, dynamical, and electrostatic changes in the TRPV5 pore, providing structural insight into the functional alterations associated with the A563T variation.

摘要

瞬时受体电位阳离子通道香草酸亚家族成员5(TRPV5)在肾脏主动重吸收Ca(2+)过程中起关键作用。TRPV5变异在非洲人群中高频出现,可能是其Ca(2+)重吸收效率更高的原因之一。非洲特异性变异之一A563T表现出增强的Ca(2+)转运能力。然而,尚不清楚这种变异如何影响通道孔。基于TRPV1的结构,构建了TRPV5模型以模拟A563T变异引起的结构和动力学变化。基于该模型,氨基酸残基563与V540相互作用,V540距离参与Ca(2+)选择性和Mg(2+)阻断的关键残基D542相差一个残基。A563T变异增加了二级结构稳定性并降低了D542的动力学运动。此外,A563T变异改变了孔外表面的静电势。在另一个基于TRPV5和TRPV1选择性过滤器不同比对得出的模型中,也观察到了选择性过滤器残基与残基563之间接触的差异以及两种TRPV5变体之间静电势的差异。这些发现表明,A563T变异在TRPV5孔中诱导了结构、动力学和静电变化,为与A563T变异相关的功能改变提供了结构上的见解。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/adf0/5304435/058410e552eb/nihms-846463-f0002.jpg

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