丝氨酸/苏氨酸和双组分信号的收敛协调分枝杆菌休眠调节子的表达。

Convergence of Ser/Thr and two-component signaling to coordinate expression of the dormancy regulon in Mycobacterium tuberculosis.

机构信息

Department of Microbiology and Immunology, University of British Columbia, Vancouver, British Columbia V5Z 3J5, Canada.

出版信息

J Biol Chem. 2010 Sep 17;285(38):29239-46. doi: 10.1074/jbc.M110.132894. Epub 2010 Jul 14.

DOI:10.1074/jbc.M110.132894

PMID:20630871

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2937955/

Abstract

Signal transduction in Mycobacterium tuberculosis is mediated primarily by the Ser/Thr protein kinases and the two-component systems. The Ser/Thr kinase PknH has been shown to regulate growth of M. tuberculosis in a mouse model and in response to NO stress in vitro. Comparison of a pknH deletion mutant (ΔpknH) with its parental M. tuberculosis H37Rv strain using iTRAQ enabled us to quantify >700 mycobacterial proteins. Among these, members of the hypoxia- and NO-inducible dormancy (DosR) regulon were disregulated in the ΔpknH mutant. Using kinase assays, protein-protein interactions, and mass spectrometry analysis, we demonstrated that the two-component response regulator DosR is a substrate of PknH. PknH phosphorylation of DosR mapped to Thr(198) and Thr(205) on the key regulatory helix α10 involved in activation and dimerization of DosR. PknH Thr phosphorylation and DosS Asp phosphorylation of DosR cooperatively enhanced DosR binding to cognate DNA sequences. Transcriptional analysis comparing ΔpknH and parental M. tuberculosis revealed that induction of the DosR regulon was subdued in the ΔpknH mutant in response to NO. Together, these results indicate that PknH phosphorylation of DosR is required for full induction of the DosR regulon and demonstrate convergence of the two major signal transduction systems for the first time in M. tuberculosis.

摘要

结核分枝杆菌的信号转导主要由丝氨酸/苏氨酸蛋白激酶和双组分系统介导。丝氨酸/苏氨酸激酶 PknH 已被证明可调节小鼠模型中结核分枝杆菌的生长和体外对 NO 应激的反应。使用 iTRAQ 比较 pknH 缺失突变体 (ΔpknH)与其亲本结核分枝杆菌 H37Rv 菌株，我们能够定量 >700 种分枝杆菌蛋白。在这些蛋白中，缺氧和 NO 诱导休眠 (DosR) 调节子的成员在 ΔpknH 突变体中失调。通过激酶测定、蛋白质-蛋白质相互作用和质谱分析，我们证明了双组分反应调节剂 DosR 是 PknH 的底物。DosR 的 PknH 磷酸化定位在 DosR 关键调节螺旋 α10 上的 Thr(198)和 Thr(205)，该螺旋涉及 DosR 的激活和二聚化。PknH Thr 磷酸化和 DosS Asp 磷酸化的 DosR 协同增强 DosR 与同源 DNA 序列的结合。比较 ΔpknH 和亲本结核分枝杆菌的转录分析表明，在 ΔpknH 突变体中，DosR 调节子的诱导在 NO 存在下受到抑制。这些结果表明，DosR 的 PknH 磷酸化对于 DosR 调节子的完全诱导是必需的，并首次证明了结核分枝杆菌中两种主要信号转导系统的融合。

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