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Flagellar Assembly Factor FliW2 De-Represses Helicobacter pylori FlaA-Mediated Motility by Allosteric Obstruction of Global Regulator CsrA

IF 4.3 2区医学 Q1 GASTROENTEROLOGY & HEPATOLOGY

Helicobacter Pub Date : 2025-03-13 DOI:10.1111/hel.70019

Marcia Shu-Wei Su, Benjamin Dickins, Fang Yie Kiang, Wei-Jiun Tsai, Yueh-Lin Chen, Jenn-Wei Chen, Shuying Wang, Pei-Jane Tsai, Jiunn-Jong Wu

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引用次数: 0

Abstract

Background

Helicobacter pylori colonizes the human stomach as a dominant member of the gastric microbiota and constitutively expresses flagellar motility for survival. Carbon storage regulator A (CsrA) is a posttranscriptional global regulator and a critical determinant of H. pylori's motility and pathogenicity. The regulation of H. pylori CsrA is still uncertain although in other species CsrA is reported to be antagonized by small RNAs and proteins. In this study, we attempted to unveil how CsrA is regulated and hypothesized that H. pylori CsrA activity is antagonized by a flagellar assembly factor, FliW2, via protein allosteric obstruction.

Materials and Methods

Multiple sequence comparisons indicated that, along its length and in contrast to fliW1, the fliW2 of H. pylori J99 is conserved. We then generated an isogenic ΔfliW2 strain whose function was characterized using phenotypic and biochemical approaches. We also applied a machine learning approach (AlphaFold2) to predict FliW2-CsrA binding domains and investigated the FliW2-CsrA interaction using pull-down assays and in vivo bacterial two-hybrid systems.

Results

We observed the reduced expression of major flagellin FlaA and impaired flagellar filaments that attenuated the motility of the ΔfliW2 strain. Furthermore, a direct interaction between FliW2 and CsrA was demonstrated, and a novel region of the C-terminal extension of CsrA was suggested to be crucial for CsrA interacting with FliW2. Based on our AlphaFold2 prediction, this C-terminal region of FliW2-CsrA interaction does not overlap with CsrA's N-terminal RNA binding domain, implying that FliW2 allosterically antagonizes CsrA activity and restricts CsrA's binding to flaA mRNAs.

Conclusions

Our data points to novel regulatory roles that the H. pylori flagellar assembly factor FliW2 has in obstructing CsrA activity, and thus FliW2 may indirectly antagonize CsrA's regulation of flaA mRNA processing and translation. Our findings reveal a new regulatory mechanism of flagellar motility in H. pylori.

Abstract Image

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鞭毛组装因子flw2通过全球调节因子CsrA的变构阻力去抑制幽门螺杆菌flaa介导的运动

背景幽门螺杆菌作为胃微生物群的优势成员定植在人胃中，并组成性地表达鞭毛运动以维持生存。碳储存调节剂A （Carbon storage regulator, CsrA）是一种转录后全局调节剂，是幽门螺杆菌运动和致病性的关键决定因素。幽门螺杆菌CsrA的调控尚不清楚，尽管在其他物种中有报道称CsrA可被小rna和蛋白拮抗。在这项研究中，我们试图揭示CsrA是如何被调节的，并假设鞭毛组装因子FliW2通过蛋白变构阻力拮抗幽门螺杆菌CsrA活性。材料与方法多个序列比较表明，与fliW1相比，幽门螺杆菌J99的fliW2沿其长度方向具有保守性。然后，我们生成了一个等基因ΔfliW2菌株，其功能使用表型和生化方法进行了表征。我们还应用了机器学习方法（AlphaFold2）来预测FliW2-CsrA结合域，并使用下拉试验和体内细菌双杂交系统研究了FliW2-CsrA的相互作用。结果ΔfliW2菌株主要鞭毛蛋白FlaA表达减少，鞭毛丝受损，运动能力减弱。此外，FliW2和CsrA之间的直接相互作用被证实，并且CsrA c端扩展的一个新区域被认为是CsrA与FliW2相互作用的关键区域。基于我们的AlphaFold2预测，FliW2-CsrA相互作用的c端区域不与CsrA的n端RNA结合域重叠，这意味着FliW2变构地拮抗CsrA活性并限制CsrA与flaA mrna的结合。结论幽门螺杆菌鞭毛组装因子FliW2在阻断CsrA活性方面具有新的调控作用，因此FliW2可能间接拮抗CsrA对flaA mRNA加工和翻译的调控。我们的发现揭示了幽门螺旋杆菌鞭毛运动的一种新的调控机制。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Helicobacter

Helicobacter 医学-微生物学

CiteScore

8.40

自引率

9.10%

发文量

76

审稿时长

2 months

期刊介绍： Helicobacter is edited by Professor David Y Graham. The editorial and peer review process is an independent process. Whenever there is a conflict of interest, the editor and editorial board will declare their interests and affiliations. Helicobacter recognises the critical role that has been established for Helicobacter pylori in peptic ulcer, gastric adenocarcinoma, and primary gastric lymphoma. As new helicobacter species are now regularly being discovered, Helicobacter covers the entire range of helicobacter research, increasing communication among the fields of gastroenterology; microbiology; vaccine development; laboratory animal science.

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