Department of Immunology, University of Pittsburghgrid.21925.3dgrid.471408.egrid.21925.3d, Pittsburgh, Pennsylvania, USA.
Department of Pediatrics, UPMC Children's Hospital of Pittsburgh, Pittsburgh, Pennsylvania, USA.
Microbiol Spectr. 2022 Oct 26;10(5):e0164522. doi: 10.1128/spectrum.01645-22. Epub 2022 Aug 30.
Staphylococcus aureus can complicate preceding viral infections, including influenza virus. A bacterial infection combined with a preceding viral infection, known as superinfection, leads to worse outcomes than a single infection. Most of the pulmonary infection literature focuses on the changes in immune responses to bacteria between homeostatic and virally infected lungs. However, it is unclear how much of an influence bacterial virulence factors have in single or superinfection. Staphylococcal species express a broad range of cell wall-anchored proteins (CWAs) that have roles in host adhesion, nutrient acquisition, and immune evasion. We screened the importance of these CWAs using mutants lacking individual CWAs in both bacterial pneumonia and influenza superinfection. In bacterial pneumonia, the lack of individual CWAs leads to various decreases in bacterial burden, lung damage, and immune infiltration into the lung. However, the presence of a preceding influenza infection partially abrogates the requirement for CWAs. In the screen, we found that the uncharacterized CWA S. aureus surface protein D (SasD) induced changes in both inflammatory and homeostatic lung markers. We further characterized a SasD mutant (sasD A50.1) in the context of pneumonia. Mice infected with sasD A50.1 have decreased bacterial burden, inflammatory responses, and mortality compared to wild-type S. aureus. Mice also have reduced levels of interleukin-1β (IL-1β), likely derived from macrophages. Reductions in IL-1β transcript levels as well as increased macrophage viability point at differences in cell death pathways. These data identify a novel virulence factor for S. aureus that influences inflammatory signaling within the lung. Staphylococcus aureus is a common commensal bacterium that can cause severe infections, such as pneumonia. In the lung, viral infections increase the risk of staphylococcal pneumonia, leading to combined infections known as superinfections. The most common virus associated with S. aureus pneumonia is influenza, and superinfections lead to worse patient outcomes than either infection alone. While there is much known about how the immune system differs between healthy and virally infected lungs, the role of bacterial virulence factors in single and superinfection is less understood. The significance of our research is identifying bacterial components that play a role in the initiation of lung injury, which could lead to future therapies to prevent pulmonary single or superinfection with S. aureus.
金黄色葡萄球菌可使先前的病毒感染(包括流感病毒)复杂化。细菌感染与先前的病毒感染相结合,称为合并感染,其结果比单一感染更差。大多数肺部感染文献都集中在稳态和病毒感染肺部之间细菌免疫反应的变化。然而,细菌毒力因子在单一或合并感染中产生多大影响尚不清楚。葡萄球菌属表达广泛的细胞壁锚定蛋白(CWA),这些蛋白在宿主黏附、营养获取和免疫逃逸中发挥作用。我们使用缺乏单个 CWA 的突变体在细菌性肺炎和流感合并感染中筛选这些 CWA 的重要性。在细菌性肺炎中,缺乏单个 CWA 会导致细菌负荷、肺损伤和免疫细胞浸润到肺部的各种减少。然而,先前存在流感感染部分削弱了对 CWA 的需求。在筛选中,我们发现未鉴定的葡萄球菌表面蛋白 D(SasD)既改变了炎症性和稳态性肺部标志物。我们进一步在肺炎背景下对 SasD 突变体(sasD A50.1)进行了表征。与野生型金黄色葡萄球菌相比,感染 sasD A50.1 的小鼠的细菌负荷、炎症反应和死亡率降低。小鼠的白细胞介素 1β(IL-1β)水平也降低,可能来自巨噬细胞。IL-1β 转录水平降低以及巨噬细胞活力增加表明细胞死亡途径存在差异。这些数据确定了金黄色葡萄球菌的一种新型毒力因子,该因子影响肺部的炎症信号。金黄色葡萄球菌是一种常见的共生菌,可引起严重感染,如肺炎。在肺部,病毒感染会增加金黄色葡萄球菌肺炎的风险,导致称为合并感染的联合感染。与金黄色葡萄球菌肺炎相关的最常见病毒是流感,合并感染比单一感染的患者预后更差。虽然人们对健康和病毒感染肺部之间的免疫系统差异有了很多了解,但对单一和合并感染中细菌毒力因子的作用了解较少。我们研究的意义在于确定在启动肺损伤中起作用的细菌成分,这可能导致未来预防金黄色葡萄球菌引起的肺部单一或合并感染的治疗方法。
