细胞内结构域灵活性对活化的人5-羟色胺3型受体特性的影响。

Impact of intracellular domain flexibility upon properties of activated human 5-HT3 receptors.

作者信息

Kozuska J L, Paulsen I M, Belfield W J, Martin I L, Cole D J, Holt A, Dunn S M J

机构信息

Department of Pharmacology, University of Alberta, Edmonton, AB, Canada.

出版信息

Br J Pharmacol. 2014 Apr;171(7):1617-28. doi: 10.1111/bph.12536.

DOI:10.1111/bph.12536

PMID:24283776

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3966743/

Abstract

BACKGROUND AND PURPOSE

It has been proposed that arginine residues lining the intracellular portals of the homomeric 5-HT3 A receptor cause electrostatic repulsion of cation flow, accounting for a single-channel conductance substantially lower than that of the 5-HT3 AB heteromer. However, comparison of receptor homology models for wild-type pentamers suggests that salt bridges in the intracellular domain of the homomer may impart structural rigidity, and we hypothesized that this rigidity could account for the low conductance.

EXPERIMENTAL APPROACH

Mutations were introduced into the portal region of the human 5-HT3 A homopentamer, such that putative salt bridges were broken by neutralizing anionic partners. Single-channel and whole cell currents were measured in transfected tsA201 cells and in Xenopus oocytes respectively. Computational simulations of protein flexibility facilitated comparison of wild-type and mutant receptors.

KEY RESULTS

Single-channel conductance was increased substantially, often to wild-type heteromeric receptor values, in most 5-HT3 A mutants. Conversely, introduction of arginine residues to the portal region of the heteromer, conjecturally creating salt bridges, decreased conductance. Gating kinetics varied significantly between different mutant receptors. EC50 values for whole-cell responses to 5-HT remained largely unchanged, but Hill coefficients for responses to 5-HT were usually significantly smaller in mutants. Computational simulations suggested increased flexibility throughout the protein structure as a consequence of mutations in the intracellular domain.

CONCLUSIONS AND IMPLICATIONS

These data support a role for intracellular salt bridges in maintaining the quaternary structure of the 5-HT3 receptor and suggest a role for the intracellular domain in allosteric modulation of cooperativity and agonist efficacy.

摘要

背景与目的

有人提出，同源五聚体5-HT3 A受体细胞内通道内衬的精氨酸残基会导致阳离子流的静电排斥，这解释了其单通道电导显著低于5-HT3 AB异聚体的原因。然而，对野生型五聚体受体同源模型的比较表明，同源体细胞内结构域中的盐桥可能赋予结构刚性，我们推测这种刚性可能是低电导的原因。

实验方法

在人5-HT3 A同源五聚体的通道区域引入突变，通过中和阴离子配对体来破坏假定的盐桥。分别在转染的tsA201细胞和非洲爪蟾卵母细胞中测量单通道电流和全细胞电流。蛋白质柔韧性的计算模拟有助于比较野生型和突变型受体。

关键结果

在大多数5-HT3 A突变体中，单通道电导大幅增加，通常达到野生型异聚体受体的值。相反，在异聚体的通道区域引入精氨酸残基，推测会形成盐桥，从而降低电导。不同突变体受体之间的门控动力学有显著差异。对5-HT的全细胞反应的EC50值基本保持不变，但突变体中对5-HT反应的希尔系数通常显著较小。计算模拟表明，细胞内结构域的突变导致整个蛋白质结构的柔韧性增加。

结论与启示

这些数据支持细胞内盐桥在维持5-HT3受体四级结构中的作用，并表明细胞内结构域在协同性和激动剂效力的变构调节中发挥作用。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/452a/3966743/a7de60e37a75/bph0171-1617-f1.jpg

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细胞内结构域灵活性对活化的人5-羟色胺3型受体特性的影响。

Impact of intracellular domain flexibility upon properties of activated human 5-HT3 receptors.

作者信息

机构信息

出版信息

BACKGROUND AND PURPOSE

EXPERIMENTAL APPROACH

KEY RESULTS

CONCLUSIONS AND IMPLICATIONS

背景与目的

实验方法

关键结果

结论与启示

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