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Cardiol Res. 2018 Oct;9(5):314-317. doi: 10.14740/cr741w. Epub 2018 Oct 7.
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OxyR 在白喉棒状杆菌宿主-病原体相互作用机制中的作用研究进展。

Insights of OxyR role in mechanisms of host-pathogen interaction of Corynebacterium diphtheriae.

机构信息

Department of Microbiology, Immunology and Parasitology, Faculty of Medical Science, Rio de Janeiro State University, Rio de Janeiro, Brazil.

Microbiology Division, Department of Biology, Friedrich-Alexander-University Erlangen-Nuremberg, Erlangen, Germany.

出版信息

Braz J Microbiol. 2022 Jun;53(2):583-594. doi: 10.1007/s42770-022-00710-8. Epub 2022 Feb 16.

DOI:10.1007/s42770-022-00710-8
PMID:35169995
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9151940/
Abstract

Corynebacterium diphtheriae, the leading causing agent of diphtheria, has been increasingly related to invasive diseases, including sepsis, endocarditis, pneumonia, and osteomyelitis. Oxidative stress defense is required not only for successful growth and survival under environmental conditions but also in the regulation of virulence mechanisms of human pathogenic species, by promoting mucosal colonization, survival, dissemination, and defense against the innate immune system. OxyR, functioning as a negative and/or positive transcriptional regulator, has been included among the major bacterial coordinators of antioxidant response. OxyR was first reported as a repressor of catalase expression in C. diphtheriae. However, the involvement of OxyR in C. diphtheriae pathogenesis remains unclear. Accordingly, this work aimed to investigate the role of OxyR in mechanisms of host-pathogen interaction of C. diphtheriae through the disruption of the OxyR of the diphtheria toxin (DT)-producing C. diphtheriae CDC-E8392 strain. The effects of OxyR gene disruption were analyzed through interaction assays with human epithelial cell lines (HEp-2 and pneumocytes A549) and by the induction of experimental infections in Caenorhabditis elegans nematodes and Swiss Webster mice. The OxyR disruption exerted influence on NO production and mechanism accountable for the expression of the aggregative-adherence pattern (AA) expressed by CDC-E8392 strain on human epithelial HEp-2 cells. Moreover, invasive potential and intracytoplasmic survival within HEp-2 cells, as well as the arthritogenic potential in mice, were found affected by the OxyR disruption. In conclusion, data suggest that OxyR is implicated in mechanisms of host-pathogen interaction of C. diphtheriae.

摘要

白喉棒状杆菌是白喉的主要病原体,它与侵袭性疾病的关系日益密切,包括败血症、心内膜炎、肺炎和骨髓炎。氧化应激防御不仅是在环境条件下成功生长和存活所必需的,而且在调节人类致病物种的毒力机制方面也是如此,通过促进粘膜定植、存活、传播和抵御先天免疫系统。OxyR 作为一种负调控和/或正调控转录因子,被认为是细菌抗氧化应激反应的主要协调因子之一。OxyR 最初被报道为白喉棒状杆菌过氧化氢酶表达的抑制剂。然而,OxyR 在白喉棒状杆菌发病机制中的作用尚不清楚。因此,本工作旨在通过破坏产白喉毒素(DT)的白喉棒状杆菌 CDC-E8392 菌株的 OxyR,研究 OxyR 在白喉棒状杆菌与宿主相互作用机制中的作用。通过与人类上皮细胞系(HEp-2 和肺细胞 A549)的相互作用分析以及在秀丽隐杆线虫和瑞士 Webster 小鼠中诱导实验性感染,分析 OxyR 基因缺失的影响。OxyR 缺失对人类上皮细胞 HEp-2 上 CDC-E8392 株表达的聚集粘附模式(AA)的 NO 产生和机制产生影响。此外,还发现 OxyR 缺失影响了 CDC-E8392 株在 HEp-2 细胞中的侵袭能力和细胞内存活能力,以及在小鼠中的关节炎形成能力。总之,数据表明 OxyR 参与了白喉棒状杆菌与宿主相互作用的机制。