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土拉弗朗西斯菌抗氧化剂利用活性氧来限制巨噬细胞信号转导和细胞因子产生。

Francisella tularensis antioxidants harness reactive oxygen species to restrict macrophage signaling and cytokine production.

机构信息

Center for Immunology and Microbial Disease, Albany Medical College, Albany, New York 12208, USA.

出版信息

J Biol Chem. 2010 Sep 3;285(36):27553-60. doi: 10.1074/jbc.M110.144394. Epub 2010 Jun 17.

DOI:10.1074/jbc.M110.144394
PMID:20558723
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2934622/
Abstract

Francisella tularensis is the etiologic agent of the highly infectious animal and human disease tularemia. Its extreme infectivity and virulence are associated with its ability to evade immune detection, which we now link to its robust reactive oxygen species-scavenging capacity. Infection of primary human monocyte-derived macrophages with virulent F. tularensis SchuS4 prevented proinflammatory cytokine production in the presence or absence of IFN-gamma compared with infection with the attenuated live vaccine strain. SchuS4 infection also blocked signals required for macrophage cytokine production, including Akt phosphorylation, IkappaB alpha degradation, and NF-kappaB nuclear localization and activation. Concomitant with SchuS4-mediated suppression of Akt phosphorylation was an increase in the levels of the Akt antagonist PTEN. Moreover, SchuS4 prevented the H(2)O(2)-dependent oxidative inactivation of PTEN compared with a virulent live vaccine strain. Mutation of catalase (katG) sensitized F. tularensis to H(2)O(2) and enhanced PTEN oxidation, Akt phosphorylation, NF-kappaB activation, and inflammatory cytokine production. Together, these findings suggest a novel role for bacterial antioxidants in restricting macrophage activation through their ability to preserve phosphatases that temper kinase signaling and proinflammatory cytokine production.

摘要

土拉弗朗西斯菌是高度传染性的动物和人类疾病土拉菌病的病原体。它的极强的传染性和毒性与其逃避免疫检测的能力有关,我们现在将其与强大的活性氧物种清除能力联系起来。与感染弱毒活疫苗株相比,用强毒的弗朗西斯菌 SchuS4 感染原代人单核细胞来源的巨噬细胞可在 IFN-γ存在或不存在的情况下阻止促炎细胞因子的产生。SchuS4 感染还阻断了巨噬细胞细胞因子产生所需的信号,包括 Akt 磷酸化、IkappaB alpha 降解以及 NF-kappaB 核定位和激活。与 SchuS4 介导的 Akt 磷酸化抑制同时发生的是 Akt 拮抗剂 PTEN 的水平增加。此外,与强毒活疫苗株相比,SchuS4 可防止 PTEN 被 H2O2 依赖性氧化失活。而过氧化氢酶(katG)的突变使土拉弗朗西斯菌对 H2O2 敏感,并增强了 PTEN 氧化、Akt 磷酸化、NF-kappaB 激活和促炎细胞因子的产生。这些发现表明,细菌抗氧化剂通过其保持调节激酶信号和促炎细胞因子产生的磷酸酶的能力,在限制巨噬细胞激活方面发挥了新的作用。

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