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(2023-07-30 10:58):
#paper doi:10.1128/iai.00037-23 Identification of Virulence Factors Involved in a Murine Model of Severe Achromobacter xylosoxidans Infection
本文使用正常鼠、免疫低下鼠、正常毒株、弱毒株进行攻毒实验,以此研究木糖氧化无色杆菌(Ax)的毒力影响因素。核心结论是,插入突变研究结果表明, III 型分泌系统、Vi 胶囊、antisigma-E 因子,以及ArtA 粘附素是影响毒力强弱的主要因素。
Identification of Virulence Factors Involved in a Murine Model of Severe Achromobacter xylosoxidans Infection
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Abstract:
Achromobacter xylosoxidans (Ax) is an opportunistic pathogen and causative agent of numerous infections particularly in immunocompromised individuals with increasing prevalence in cystic fibrosis (CF). To date, investigations have focused on the clinical epidemiology and genomic comparisons of Ax isolates, yet little is known about disease pathology or the role that specific virulence factors play in tissue invasion or damage. Here, we model an acute Ax lung infection in immunocompetent C57BL/6 mice and immunocompromised CF mice, revealing a link between cytotoxicity and disease in an intact host. Mice were intratracheally challenged with sublethal doses of a cytotoxic (GN050) or invasive (GN008) strain of Ax. Bacterial burden, immune cell populations, and inflammatory markers in bronchoalveolar lavage fluid and lung homogenates were measured at different time points to assess disease severity. CF mice had a similar but delayed immune response toward both Ax strains compared to C57BL/6J mice. GN050 caused more severe disease and higher mortality which correlated with greater bacterial burden and increased proinflammatory responses in both mouse models. In agreement with the cytotoxicity of GN050 toward macrophages , mice challenged with GN050 had fewer macrophages. Mutants with transposon insertions in predicted virulence factors of GN050 showed that disease severity depended on the type III secretion system, Vi capsule, antisigma-E factor, and partially on the ArtA adhesin. The development of an acute infection model provides an essential tool to better understand the infectivity of diverse Ax isolates and enable improved identification of virulence factors important to bacterial persistence and disease.
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