Department of Veterinary Disease Biology, Faculty of Health and Medical Sciences, University of Copenhagen, Frederiksberg C, Denmark.
Department of Systems Biology, Technical University of Denmark, Lyngby, Denmark.
J Med Microbiol. 2014 Jun;63(Pt 6):788-795. doi: 10.1099/jmm.0.072223-0. Epub 2014 Apr 8.
The phage-shock protein (Psp) system is believed to manage membrane stress in all Enterobacteriaceae and has recently emerged as being important for virulence in several pathogenic species of this phylum. The core of the Psp system consists of the pspA-D operon and the distantly located pspG gene. In Salmonella enterica serovar Typhimurium (S. Typhimurium), it has recently been reported that PspA is essential for systemic infection of mice, but only in NRAMP1(+) mice, signifying that attenuation is related to coping with divalent cation starvation in the intracellular environment. In the present study, we investigated the contribution of individual psp genes to virulence of S. Typhimurium. Interestingly, deletion of the whole pspA-D set of genes caused attenuation in both NRAMP1(+) and NRAMP1(-) mice, indicating that one or more of the psp genes contribute to virulence independently of NRAMP1 expression in the host. Investigations of single gene mutants showed that knock out of pspB reduced virulence in both types of mice, while deletion of pspA only caused attenuation in NRAMP1(+) mice, and deletion of pspD had a minor effect in NRAMP1(-) mice, while deletions of either pspC or pspG did not affect virulence. Experiments addressed at elucidating the role of PspB in virulence revealed that PspB is dispensable for uptake to and intracellular replication in cultured macrophages and resistance to complement-induced killing. Furthermore, the Psp system of S. Typhimurium was dispensable during pIV-induced secretin stress. In conclusion, our results demonstrate that removal of PspB reduces virulence in S. Typhimurium independently of host NRAMP1 expression, demonstrating that PspB has roles in intra-host survival distinct from the reported contributions of PspA.
噬菌体休克蛋白 (Psp) 系统被认为可以管理肠杆菌科所有细菌的膜应激,并且最近在该门的几个致病性物种的毒力中被发现很重要。Psp 系统的核心由 pspA-D 操纵子和位于远处的 pspG 基因组成。在鼠伤寒沙门氏菌 (S. Typhimurium) 中,最近有报道称 PspA 对于小鼠的全身感染是必需的,但仅在 NRAMP1(+) 小鼠中,这表明衰减与应对细胞内环境中二价阳离子饥饿有关。在本研究中,我们研究了单个 psp 基因对 S. Typhimurium 毒力的贡献。有趣的是,pspA-D 整套基因的缺失导致 NRAMP1(+) 和 NRAMP1(-) 小鼠的毒力减弱,这表明一个或多个 psp 基因独立于宿主中 NRAMP1 的表达有助于毒力。对单个基因突变体的研究表明,pspB 的敲除减少了两种类型小鼠的毒力,而 pspA 的缺失仅导致 NRAMP1(+) 小鼠的衰减,pspD 的缺失在 NRAMP1(-) 小鼠中仅有轻微影响,而 pspC 或 pspG 的缺失则不影响毒力。阐明 PspB 在毒力中的作用的实验表明,PspB 对于在培养的巨噬细胞中摄取和细胞内复制以及对补体诱导杀伤的抗性是可有可无的。此外,在 pIV 诱导的分泌素应激期间,鼠伤寒沙门氏菌的 Psp 系统是可有可无的。总之,我们的结果表明,去除 PspB 会降低 S. Typhimurium 的毒力,而与宿主 NRAMP1 的表达无关,这表明 PspB 在宿主内生存中有不同于 PspA 报道的作用。
