脂质双层的力学性质和机械敏感性功能的调节：从生物到仿生通道。

Mechanical properties of lipid bilayers and regulation of mechanosensitive function: from biological to biomimetic channels.

机构信息

Unidad de Biofísica, CSIC, UPV/EHU, Universidad del País Vasco, Leioa, Spain.

出版信息

Channels (Austin). 2012 Jul-Aug;6(4):220-33. doi: 10.4161/chan.21085. Epub 2012 Jul 1.

DOI:10.4161/chan.21085

PMID:22790280

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3508901/

Abstract

Material properties of lipid bilayers, including thickness, intrinsic curvature and compressibility regulate the function of mechanosensitive (MS) channels. This regulation is dependent on phospholipid composition, lateral packing and organization within the membrane. Therefore, a more complete framework to understand the functioning of MS channels requires insights into bilayer structure, thermodynamics and phospholipid structure, as well as lipid-protein interactions. Phospholipids and MS channels interact with each other mainly through electrostatic forces and hydrophobic matching, which are also crucial for antimicrobial peptides. They are excellent models for studying the formation and stabilization of membrane pores. Importantly, they perform equivalent responses as MS channels: (1) tilting in response to tension and (2) dissipation of osmotic gradients. Lessons learned from pore forming peptides could enrich our knowledge of mechanisms of action and evolution of these channels. Here, the current state of the art is presented and general principles of membrane regulation of mechanosensitive function are discussed.

摘要

脂质双层的物质特性，包括厚度、固有曲率和可压缩性，调节机械敏感性（MS）通道的功能。这种调节依赖于磷脂组成、膜内的侧向堆积和组织。因此，要更全面地理解 MS 通道的功能，需要深入了解双层结构、热力学和磷脂结构，以及脂质-蛋白质相互作用。磷脂和 MS 通道主要通过静电力和疏水性匹配相互作用，这对于抗菌肽也至关重要。它们是研究膜孔形成和稳定的理想模型。重要的是，它们的响应与 MS 通道相同：（1）响应张力而倾斜，（2）耗散渗透梯度。从形成孔的肽中学到的经验可以丰富我们对这些通道的作用机制和进化的认识。本文介绍了目前的研究现状，并讨论了机械敏感性功能的膜调节的一般原则。

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