解析革兰氏阴性菌脂蛋白转运的演化揭示了一个具有双重功能的 LolA。

Teasing apart the evolution of lipoprotein trafficking in gram-negative bacteria reveals a bifunctional LolA.

机构信息

Microbiology and Molecular Genetics Program, Graduate Division of Biological and Biomedical Sciences, Laney Graduate School, Emory University, Atlanta, GA 30322.

Department of Microbiology and Immunology, Emory University School of Medicine, Atlanta, GA 30322.

出版信息

Proc Natl Acad Sci U S A. 2023 Feb 7;120(6):e2218473120. doi: 10.1073/pnas.2218473120. Epub 2023 Jan 30.

DOI:10.1073/pnas.2218473120

PMID:36716372

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9963962/

Abstract

The outer membrane (OM) is the defining feature of gram-negative bacteria and is an essential organelle. Accordingly, OM assembly pathways and their essential protein components are conserved throughout all gram-negative species. Lipoprotein trafficking lies at the heart of OM assembly since it supplies several different biogenesis machines with essential lipoproteins. The Lol trafficking pathway relies on an inner membrane LolCDE transporter that transfers newly made lipoproteins to the chaperone LolA, which rapidly traffics lipoproteins across the periplasm to LolB for insertion into the OM. Strikingly, many gram-negative species (like ) do not produce LolB, yet essential lipoproteins are still trafficked to the OM. How the final step of trafficking occurs in these organisms has remained a long-standing mystery. We demonstrate that LolA from can complement the deletion of both LolA and LolB in , revealing that this protein possesses both chaperone and insertion activities. Moreover, we define the region of LolA that is responsible for its bifunctionality. This knowledge enabled us to convert LolA into a similarly bifunctional protein, capable of chaperone and insertion activities. We propose that a bifunctional LolA eliminates the need for LolB. Our findings provide an explanation for why some gram-negative species have retained an essential LolA yet completely lack a dedicated LolB protein.

摘要

外膜（OM）是革兰氏阴性菌的定义特征，是一种必需的细胞器。因此，OM 组装途径及其必需的蛋白质成分在所有革兰氏阴性物种中都是保守的。脂蛋白转运是 OM 组装的核心，因为它为几种不同的生物发生机器提供必需的脂蛋白。Lol 转运途径依赖于内膜 LolCDE 转运体，该转运体将新合成的脂蛋白转运到伴侣蛋白 LolA，LolA 迅速将脂蛋白穿过周质转运到 LolB 进行插入 OM。引人注目的是，许多革兰氏阴性物种（如）不产生 LolB，但必需的脂蛋白仍被转运到 OM。在这些生物体中，转运的最后一步如何发生一直是一个长期存在的谜。我们证明来自的 LolA 可以补充中 LolA 和 LolB 的缺失，这表明该蛋白具有伴侣和插入活性。此外，我们确定了 LolA 负责其双功能的区域。这一知识使我们能够将 LolA 转化为具有类似双功能的蛋白质，能够进行伴侣和插入活性。我们提出，双功能的 LolA 消除了对 LolB 的需求。我们的发现为为什么一些革兰氏阴性物种保留了必需的 LolA 但完全缺乏专用的 LolB 蛋白提供了一个解释。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/3c45/9963962/21aec9552bcc/pnas.2218473120fig01.jpg

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解析革兰氏阴性菌脂蛋白转运的演化揭示了一个具有双重功能的 LolA。

Teasing apart the evolution of lipoprotein trafficking in gram-negative bacteria reveals a bifunctional LolA.

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