炭疽芽孢杆菌产生的一氧化氮对病原体在巨噬细胞中的毒力和存活至关重要。
Bacillus anthracis-derived nitric oxide is essential for pathogen virulence and survival in macrophages.
作者信息
Shatalin Konstantin, Gusarov Ivan, Avetissova Ekaterina, Shatalina Yelena, McQuade Lindsey E, Lippard Stephen J, Nudler Evgeny
机构信息
Department of Biochemistry, New York University School of Medicine, New York, NY 10016, USA.
出版信息
Proc Natl Acad Sci U S A. 2008 Jan 22;105(3):1009-13. doi: 10.1073/pnas.0710950105.
Abstract
Phagocytes generate nitric oxide (NO) and other reactive oxygen and nitrogen species in large quantities to combat infecting bacteria. Here, we report the surprising observation that in vivo survival of a notorious pathogen-Bacillus anthracis-critically depends on its own NO-synthase (bNOS) activity. Anthrax spores (Sterne strain) deficient in bNOS lose their virulence in an A/J mouse model of systemic infection and exhibit severely compromised survival when germinating within macrophages. The mechanism underlying bNOS-dependent resistance to macrophage killing relies on NO-mediated activation of bacterial catalase and suppression of the damaging Fenton reaction. Our results demonstrate that pathogenic bacteria use their own NO as a key defense against the immune oxidative burst, thereby establishing bNOS as an essential virulence factor. Thus, bNOS represents an attractive antimicrobial target for treatment of anthrax and other infectious diseases.
摘要
吞噬细胞会大量产生一氧化氮(NO)以及其他活性氧和氮类物质来对抗感染细菌。在此,我们报告了一个惊人的发现,即一种臭名昭著的病原体——炭疽芽孢杆菌——在体内的存活严重依赖于其自身的一氧化氮合酶(bNOS)活性。缺乏bNOS的炭疽芽孢(斯特恩菌株)在系统性感染的A/J小鼠模型中失去毒力,并且在巨噬细胞内萌发时存活能力严重受损。bNOS依赖性抵抗巨噬细胞杀伤的机制依赖于NO介导的细菌过氧化氢酶激活以及对破坏性芬顿反应的抑制。我们的结果表明,病原菌利用自身的NO作为对抗免疫氧化爆发的关键防御手段,从而确立了bNOS作为一种必需的毒力因子。因此,bNOS是治疗炭疽和其他传染病的一个有吸引力的抗菌靶点。
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