Microbiology and Molecular Genetics Program, Graduate Division of Biological and Biomedical Sciences, Laney Graduate School, Emory University , Atlanta, Georgia, USA.
Immunology and Molecular Pathogenesis Program, Graduate Division of Biological and Biomedical Sciences, Laney Graduate School, Emory University , Atlanta, Georgia, USA.
Infect Immun. 2023 Nov 16;91(11):e0025823. doi: 10.1128/iai.00258-23. Epub 2023 Oct 24.
The pro-inflammatory cytokine IL-6 regulates antimicrobial responses that are broadly crucial in the defense against infection. Our prior work shows that IL-6 promotes the killing of the M4 serotype group A (GAS) but does not impact the globally disseminated M1T1 serotype associated with invasive infections. Using and infection models, we show that IL-6 induces phagocyte reactive oxygen species (ROS) that are responsible for the differential susceptibility of M4 and M1T1 GAS to IL-6-mediated defenses. Clinical isolates naturally deficient in capsule, or M1T1 strains deficient in capsule production, are sensitive to this ROS killing. The GAS capsule is made of hyaluronic acid, an antioxidant that detoxifies ROS and can protect acapsular M4 GAS when added exogenously. During interactions with macrophages and neutrophils, acapsular GAS can also be rescued with the antioxidant N-acetylcysteine, suggesting this is a major virulence contribution of the capsule. In an intradermal infection model with (chronic granulomatous disease [CGD]) mice, phagocyte ROS production had a modest effect on bacterial proliferation and the cytokine response but significantly limited the size of the bacterial lesion in the skin. These data suggest that the capsule broadly provides enhanced resistance to phagocyte ROS but is not essential for invasive infection. Since capsule-deficient strains are observed across several GAS serotypes and are competent for transmission and both mild and invasive infections, additional host or microbe factors may contribute to ROS detoxification during GAS infections.
促炎细胞因子白细胞介素 6(IL-6)调节抗菌反应,这些反应在抵御感染方面广泛至关重要。我们之前的工作表明,IL-6 促进了 M4 血清型 A 组链球菌(GAS)的杀伤,但不影响与侵袭性感染相关的全球传播的 M1T1 血清型。使用 和 感染模型,我们表明 IL-6 诱导吞噬细胞活性氧物质(ROS),这是 M4 和 M1T1 GAS 对 IL-6 介导的防御的不同敏感性的原因。天然缺乏荚膜的临床分离株或缺乏荚膜产生的 M1T1 菌株对这种 ROS 杀伤敏感。GAS 荚膜由透明质酸组成,透明质酸是一种抗氧化剂,可以解毒 ROS,并在体外添加时可以保护无荚膜的 M4 GAS。在与巨噬细胞和中性粒细胞相互作用期间,无荚膜 GAS 也可以用抗氧化剂 N-乙酰半胱氨酸挽救,表明荚膜是主要的毒力贡献。在一个用 (慢性肉芽肿病 [CGD])小鼠的真皮内感染模型中,吞噬细胞 ROS 产生对细菌增殖和细胞因子反应的影响不大,但显著限制了皮肤中的细菌病变大小。这些数据表明,荚膜广泛提供了对吞噬细胞 ROS 的增强抗性,但对于侵袭性感染并非必不可少。由于荚膜缺陷株在几种 GAS 血清型中都有观察到,并且能够进行传播以及轻度和侵袭性感染,因此在 GAS 感染期间,其他宿主或微生物因素可能有助于 ROS 解毒。
