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通过膜张力进行的机械转导:一切都与传播有关?

Mechanotransduction through membrane tension: It's all about propagation?

作者信息

Ghisleni Andrea, Gauthier Nils C

机构信息

IFOM ETS, The AIRC Institute of Molecular Oncology, Via Adamello 16, 20139, Milan, Italy.

IFOM ETS, The AIRC Institute of Molecular Oncology, Via Adamello 16, 20139, Milan, Italy.

出版信息

Curr Opin Cell Biol. 2024 Feb;86:102294. doi: 10.1016/j.ceb.2023.102294. Epub 2023 Dec 14.

Abstract

Over the past 25 years, membrane tension has emerged as a primary mechanical factor influencing cell behavior. Although supporting evidences are accumulating, the integration of this parameter in the lifecycle of cells, organs, and tissues is complex. The plasma membrane is envisioned as a bilayer continuum acting as a 2D fluid. However, it possesses almost infinite combinations of proteins, lipids, and glycans that establish interactions with the extracellular or intracellular environments. This results in a tridimensional composite material with non-trivial dynamics and physics, and the task of integrating membrane mechanics and cellular outcome is a daunting chore for biologists. In light of the most recent discoveries, we aim in this review to provide non-specialist readers some tips on how to solve this conundrum.

摘要

在过去25年里,膜张力已成为影响细胞行为的主要力学因素。尽管支持证据不断积累,但该参数在细胞、器官和组织生命周期中的整合却很复杂。质膜被设想为一个双层连续体,充当二维流体。然而,它拥有几乎无限组合的蛋白质、脂质和聚糖,这些物质与细胞外或细胞内环境建立相互作用。这就产生了一种具有复杂动力学和物理学特性的三维复合材料,而将膜力学与细胞结果整合起来的任务对生物学家来说是一项艰巨的工作。鉴于最近的发现,我们旨在通过本综述为非专业读者提供一些解决这一难题的建议。

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