核糖核酸酶E和HupB的动态变化促进分枝杆菌细胞的稳态和适应性。

RNase E and HupB dynamics foster mycobacterial cell homeostasis and fitness.

作者信息

Griego Anna, Douché Thibaut, Gianetto Quentin Giai, Matondo Mariette, Manina Giulia

机构信息

Institut Pasteur, Université de Paris, Microbial Individuality and Infection Group, F-75015 Paris, France.

Institut Pasteur, CNRS USR 2000, Mass Spectrometry for Biology Unit, F-75015 Paris, France.

出版信息

iScience. 2022 Apr 12;25(5):104233. doi: 10.1016/j.isci.2022.104233. eCollection 2022 May 20.

DOI:10.1016/j.isci.2022.104233

PMID:35521527

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9062218/

Abstract

RNA turnover is a primary source of gene expression variation, in turn promoting cellular adaptation. Mycobacteria leverage reversible mRNA stabilization to endure hostile conditions. Although RNase E is essential for RNA turnover in several species, its role in mycobacterial single-cell physiology and functional phenotypic diversification remains unexplored. Here, by integrating live-single-cell and quantitative-mass-spectrometry approaches, we show that RNase E forms dynamic foci, which are associated with cellular homeostasis and fate, and we discover a versatile molecular interactome. We show a likely interaction between RNase E and the nucleoid-associated protein HupB, which is particularly pronounced during drug treatment and infection, where phenotypic diversity increases. Disruption of RNase E expression affects HupB levels, impairing growth homeostasis during treatment, intracellular replication, and host spread. Our work lays the foundation for targeting the RNase E and its partner HupB, aiming to undermine cellular balance, diversification capacity, and persistence.

摘要

RNA周转是基因表达变异的主要来源，进而促进细胞适应。分枝杆菌利用可逆的mRNA稳定来耐受恶劣条件。尽管核糖核酸酶E在多个物种的RNA周转中至关重要，但其在分枝杆菌单细胞生理学和功能表型多样化中的作用仍未得到探索。在这里，通过整合活单细胞和定量质谱方法，我们表明核糖核酸酶E形成动态焦点，这与细胞内稳态和命运相关，并且我们发现了一个多功能分子相互作用组。我们展示了核糖核酸酶E与类核相关蛋白HupB之间可能的相互作用，这种相互作用在药物治疗和感染期间尤为明显，此时表型多样性增加。核糖核酸酶E表达的破坏会影响HupB水平，损害治疗期间的生长稳态、细胞内复制和宿主传播。我们的工作为靶向核糖核酸酶E及其伴侣HupB奠定了基础，旨在破坏细胞平衡、多样化能力和持久性。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/956c/9062218/c881fcfecd2a/fx1.jpg

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RNase E and HupB dynamics foster mycobacterial cell homeostasis and fitness.核糖核酸酶E和HupB的动态变化促进分枝杆菌细胞的稳态和适应性。

iScience. 2022 Apr 12;25(5):104233. doi: 10.1016/j.isci.2022.104233. eCollection 2022 May 20.

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核糖核酸酶E和HupB的动态变化促进分枝杆菌细胞的稳态和适应性。

RNase E and HupB dynamics foster mycobacterial cell homeostasis and fitness.

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