汞通过水通道蛋白-1抑制水渗透的分子机制：分子动力学模拟的理解。

Molecular mechanisms of how mercury inhibits water permeation through aquaporin-1: understanding by molecular dynamics simulation.

机构信息

Department of Pharmacology, School of Medicine, Keio University, Shinjuku-ku, Tokyo, Japan.

出版信息

Biophys J. 2010 Apr 21;98(8):1512-9. doi: 10.1016/j.bpj.2009.12.4310.

DOI:10.1016/j.bpj.2009.12.4310

PMID:20409470

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2856166/

Abstract

Aquaporin (AQP) functions as a water-conducting pore. Mercury inhibits the water permeation through AQP. Although site-directed mutagenesis has shown that mercury binds to Cys189 during the inhibition process, it is not fully understood how this inhibits the water permeation through AQP1. We carried out 40 ns molecular dynamics simulations of bovine AQP1 tetramer with mercury (Hg-AQP1) or without mercury (Free AQP1). In Hg-AQP1, Cys191 (Cys189 in human AQP1) is converted to Cys-SHg+ in each monomer. During each last 10 ns, we observed water permeation events occurred 23 times in Free AQP1 and never in Hg-AQP1. Mercury binding did not influence the whole structure, but did induce a collapse in the orientation of several residues at the ar/R region. In Free AQP1, backbone oxygen atoms of Gly190, Cys191, and Gly192 lined, and were oriented to, the surface of the water pore channel. In Hg-AQP1, however, the SHg+ of Cys191-SHg+ was oriented toward the outside of the water pore. As a result, the backbone oxygen atoms of Gly190, Cys191, and Gly192 became disorganized and the ar/R region collapsed, thereby obstructing the permeation of water. We suggest that mercury disrupts the water pore of AQP1 through local conformational changes in the ar/R region.

摘要

水通道蛋白（AQP）作为水通道发挥作用。汞抑制水通过 AQP 的渗透。虽然定点突变已表明，在抑制过程中汞与 Cys189 结合，但尚不完全清楚这如何抑制水通过 AQP1 的渗透。我们对带有汞（Hg-AQP1）或不带有汞（Free AQP1）的牛 AQP1 四聚体进行了 40 ns 的分子动力学模拟。在 Hg-AQP1 中，每个单体中的 Cys191（人 AQP1 中的 Cys189）转化为 Cys-SHg+。在最后 10 ns 的每次模拟中，我们观察到 Free AQP1 中发生了 23 次水渗透事件，但在 Hg-AQP1 中从未发生过。汞结合并未影响整个结构，但确实诱导了 ar/R 区域中几个残基的取向坍塌。在 Free AQP1 中，Gly190、Cys191 和 Gly192 的骨架氧原子排列并朝向水通道表面。然而，在 Hg-AQP1 中，Cys191-SHg+的 SHg+ 被定向到水通道的外部。结果，Gly190、Cys191 和 Gly192 的骨架氧原子变得紊乱，ar/R 区域坍塌，从而阻碍了水的渗透。我们认为，汞通过 ar/R 区域的局部构象变化破坏了 AQP1 的水通道。

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