Bacconi Marta, Haag Andreas F, Chiarot Emiliano, Donato Paolo, Bagnoli Fabio, Delany Isabel, Bensi Giuliano
GSK Vaccines Srl, Siena, Italy.
GSK Vaccines Srl, Siena, Italy
Infect Immun. 2017 Sep 20;85(10). doi: 10.1128/IAI.00270-17. Print 2017 Oct.
is an opportunistic human pathogen and a major cause of invasive infections such as bacteremia, endocarditis, pneumonia, and wound infections. FhuD2 is a staphylococcal lipoprotein involved in the uptake of iron-hydroxymate and is under the control of the iron uptake regulator Fur. This protein is part of an investigational multicomponent vaccine formulation that has shown protective efficacy in several murine models of infection. Even though expression has been shown to be upregulated in murine kidneys infected with , it is not known whether the bacterium undergoes increased iron deprivation during prolonged infection. Furthermore, different infection niches might provide different environments and levels of iron availability, resulting in different expression patterns among organs of the same host. To address these questions, we characterized the expression of the gene and confirmed Fur-dependent regulation of its expression. We further investigated its expression in mice infected with a bioluminescent reporter strain of expressing the luciferase operon under the control of the promoter. The emission of bioluminescence in different organs was followed over a 7-day time course, and quantitative real-time PCR analysis of the RNA transcribed from the endogenous gene was performed. Using this approach, we were able to show that expression was induced during infection in all organs analyzed and that differences in expression were observed at different time points and in different infected organs. Our data suggest that undergoes increased iron deprivation during the progression of infection in diverse host organs and accordingly induces dedicated iron acquisition mechanisms. Since FhuD2 plays a central role in providing the pathogen with the required iron, further knowledge of the patterns of expression during infection will be instrumental in better defining the role of this antigen in pathogenesis and as a vaccine antigen.
是一种机会性人类病原体,是诸如菌血症、心内膜炎、肺炎和伤口感染等侵袭性感染的主要原因。FhuD2是一种参与摄取高铁载体的葡萄球菌脂蛋白,受铁摄取调节因子Fur的控制。这种蛋白质是一种研究性多组分疫苗制剂的一部分,该制剂已在多种小鼠感染模型中显示出保护功效。尽管已证明在感染的小鼠肾脏中表达上调,但尚不清楚该细菌在长期感染期间是否会经历铁剥夺增加的情况。此外,不同的感染微环境可能提供不同的铁可利用环境和水平,导致同一宿主器官之间出现不同的表达模式。为了解决这些问题,我们对该基因的表达进行了表征,并证实了其表达受Fur依赖性调节。我们进一步研究了其在感染了表达荧光素酶操纵子的生物发光报告菌株的小鼠中的表达情况,该操纵子受启动子控制。在7天的时间进程中跟踪不同器官中的生物发光发射,并对从内源性基因转录的RNA进行定量实时PCR分析。使用这种方法,我们能够表明在所有分析的器官中感染期间表达均被诱导,并且在不同时间点和不同感染器官中观察到表达差异。我们的数据表明,在不同宿主器官的感染进展过程中,经历了铁剥夺增加的情况,并相应地诱导了专门的铁获取机制。由于FhuD2在为病原体提供所需铁方面发挥着核心作用,进一步了解感染期间的表达模式将有助于更好地定义该抗原在发病机制中的作用以及作为疫苗抗原的作用。