志贺氏菌病的分子洞察:入侵蛋白IpaA和血管蛋白如何相互作用劫持细胞机械转导

Cristina Bertocchia, Nicole Moralesa, Andrea Ravasiob
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摘要

志贺氏菌病是一种由志贺氏菌科细菌引起的严重肠道感染,每年有2.7亿人感染,近50万人死亡。耐药菌株的出现和传播再次引起了全球对公共卫生的关注,寻找新的治疗靶点正迅速成为一项优先事项。为此,入侵是一个潜在的好选择。入侵蛋白也被称为Ipa(s),是入侵质粒抗原的缩写,在介导细菌入侵和感染宿主细胞中起着关键作用。重要的是,据报道,它们劫持宿主细胞的内在机械能力,如细胞粘附和由肌动蛋白细胞骨架介导的活性过程,使细菌能够进入宿主细胞。IpaA是一种特别令人感兴趣的入侵物,因为它呈现出三个基序,模拟血管蛋白结合位点,从而允许IpaA与血管蛋白相互作用,血管蛋白是细胞和组织力学中最重要的调节剂之一。利用机械生物学的观点,我们旨在概述志贺氏菌的感染机制,强调最近发现的IpaA/vinculin相互作用的分子机制,并最终讨论它们对上皮细胞和组织机械稳态的影响,这可能导致严重志贺氏菌病的症状结果。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Molecular Insights on Shigellosis: How the Interaction Between Invasin IpaA and Vinculin Hijacks Cellular Mechanotransduction
With 270 million infections annually and nearly half a million death a year, shigellosis is a severe intestinal infection caused by bacteria of the Shigella family. Appearance and spread of drug-resistant strains renewed global concerns for public health and finding novel targets for treatment is fast becoming a priority. To this end, invasins are a potentially good candidate. Also called Ipa(s), which is the short for Invasion Plasmid Antigen, invasins play a key role in mediating bacterial invasion and infection of the host cell. Importantly, they have been reported to hijack inbuilt mechanical capability of the host cells such as cell adhesion and active processes mediated by the actin cytoskeleton to enable bacterial ingress into the host cells. IpaA is an invasin of particular interest as it presents three motifs that mimic vinculin binding sites and thus it allows IpaA to interact with vinculin, which is one of the most critical regulators of cellular and tissue mechanics. Using a mechanobiology point-of-view, we aim to provide an overview of Shigella´s infection mechanism, to highlight recently discovered molecular mechanisms of IpaA/vinculin interaction and to finally discuss their consequences for epithelial cell and tissue mechanical homeostasis that may result in the symptomatic outcomes seen in severe shigellosis.
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