结核分枝杆菌抑制 METTL14 介导的 Nox2 mRNA m6A 甲基化并抑制抗结核免疫。

IF 13 1区 生物学 Q1 CELL BIOLOGY
Mingtong Ma, Yongjia Duan, Cheng Peng, You Wu, Xinning Zhang, Boran Chang, Fei Wang, Hua Yang, Ruijuan Zheng, Hongyu Cheng, Yuanna Cheng, Yifan He, Jingping Huang, Jinming Lei, Hanyu Ma, Liru Li, Jie Wang, Xiaochen Huang, Fen Tang, Jun Liu, Jinsong Li, Ruoyan Ying, Peng Wang, Wei Sha, Yawei Gao, Lin Wang, Baoxue Ge
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引用次数: 0

摘要

内部 N6-甲基腺苷(m6A)修饰是信使 RNA 最丰富的修饰之一,在多种生物和病理过程中发挥着关键作用。然而,m6A修饰在结核分枝杆菌感染的免疫反应中的功能作用和调控机制仍然未知。在这里,我们报告了甲基转移酶样 14(METTL14)依赖的 NAPDH 氧化酶 2(Nox2)mRNA 的 m6A 甲基化对宿主抵御结核分枝杆菌感染的免疫防御至关重要,而结核分枝杆菌分泌的抗原 EsxB(Rv3874)抑制了 METTL14 依赖的 Nox2 mRNA 的 m6A 甲基化。从机理上讲,EsxB 与 p38 MAP 激酶相互作用,破坏了 TAB1 与 p38 的结合,从而抑制了 TAB1 介导的 p38 自磷酸化。EsxB 与 p38 的相互作用还阻碍了 p38 与 METTL14 的结合,从而抑制了 p38 介导的 METTL14 在 Thr72 处的磷酸化。EsxB 对 p38 的抑制抑制了 METTL14 的液-液相分离(LLPS)及其随后与 METTL3 的相互作用,阻止了 Nox2 mRNA 的 m6A 修饰及其与 m6A 结合蛋白 IGF2BP1 的结合,从而破坏了 Nox2 mRNA 的稳定性,降低了 ROS 水平,提高了结核杆菌的细胞内存活率。此外,删除或突变 METTL14 上的磷酸化位点会削弱 EsxB 对 ROS 水平的抑制作用,并增加小鼠感染期间肺部的细菌负荷或组织学损伤。这些发现发现了结核杆菌抑制宿主免疫的一种未知机制,为开发针对结核杆菌的有效免疫调节剂提供了启示。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Mycobacterium tuberculosis inhibits METTL14-mediated m<sup>6</sup>A methylation of Nox2 mRNA and suppresses anti-TB immunity.

Mycobacterium tuberculosis inhibits METTL14-mediated m6A methylation of Nox2 mRNA and suppresses anti-TB immunity.

Internal N6-methyladenosine (m6A) modifications are among the most abundant modifications of messenger RNA, playing a critical role in diverse biological and pathological processes. However, the functional role and regulatory mechanism of m6A modifications in the immune response to Mycobacterium tuberculosis infection remains unknown. Here, we report that methyltransferase-like 14 (METTL14)-dependent m6A methylation of NAPDH oxidase 2 (Nox2) mRNA was crucial for the host immune defense against M. tuberculosis infection and that M. tuberculosis-secreted antigen EsxB (Rv3874) inhibited METTL14-dependent m6A methylation of Nox2 mRNA. Mechanistically, EsxB interacted with p38 MAP kinase and disrupted the association of TAB1 with p38, thus inhibiting the TAB1-mediated autophosphorylation of p38. Interaction of EsxB with p38 also impeded the binding of p38 with METTL14, thereby inhibiting the p38-mediated phosphorylation of METTL14 at Thr72. Inhibition of p38 by EsxB restrained liquid-liquid phase separation (LLPS) of METTL14 and its subsequent interaction with METTL3, preventing the m6A modification of Nox2 mRNA and its association with the m6A-binding protein IGF2BP1 to destabilize Nox2 mRNA, reduce ROS levels, and increase intracellular survival of M. tuberculosis. Moreover, deletion or mutation of the phosphorylation site on METTL14 impaired the inhibition of ROS level by EsxB and increased bacterial burden or histological damage in the lungs during infection in mice. These findings identify a previously unknown mechanism that M. tuberculosis employs to suppress host immunity, providing insights that may empower the development of effective immunomodulators that target M. tuberculosis.

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来源期刊
Cell Discovery
Cell Discovery Biochemistry, Genetics and Molecular Biology-Molecular Biology
CiteScore
24.20
自引率
0.60%
发文量
120
审稿时长
20 weeks
期刊介绍: Cell Discovery is a cutting-edge, open access journal published by Springer Nature in collaboration with the Center for Excellence in Molecular Cell Science, Chinese Academy of Sciences (CAS). Our aim is to provide a dynamic and accessible platform for scientists to showcase their exceptional original research. Cell Discovery covers a wide range of topics within the fields of molecular and cell biology. We eagerly publish results of great significance and that are of broad interest to the scientific community. With an international authorship and a focus on basic life sciences, our journal is a valued member of Springer Nature's prestigious Molecular Cell Biology journals. In summary, Cell Discovery offers a fresh approach to scholarly publishing, enabling scientists from around the world to share their exceptional findings in molecular and cell biology.
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