Abstract
ABSTRACTThe bacterial phage shock protein system (Psp) is a conserved extracytoplasmic stress response that is essential for the virulence of some pathogens, including Yersinia enterocolitica. It is induced by events that can compromise inner membrane (IM) integrity, including the mislocalization of outer membrane pore-forming proteins called secretins. In the absence of the Psp system, secretin mislocalization permeabilizes the IM and causes rapid cell death. The Psp proteins PspB and PspC form an integral IM complex with two independent roles. First, the PspBC complex is required to activate the Psp response in response to some inducing triggers, including a mislocalized secretin. Second, PspBC are sufficient to counteract mislocalized secretin toxicity. Remarkably, secretin mislocalization into the IM induces psp gene expression without significantly affecting the expression of any other genes. Furthermore, psp null strains are killed by mislocalized secretins, whereas no other null mutants have been found to share this specific secretin sensitivity. This suggests an exquisitely specific relationship between secretins and the Psp system, but there has been no mechanism described to explain this. In this study, we addressed this deficiency by using a coimmunoprecipitation approach to show that the Psp proteins form a specific complex with mislocalized secretins in the Y. enterocolitica IM. Importantly, analysis of different secretin mutant proteins also revealed that this interaction is absolutely dependent on a secretin adopting a multimeric state. Therefore, the Psp system has evolved with the ability to detect and detoxify dangerous secretin multimers while ignoring the presence of innocuous monomers.
Highlights
The bacterial phage shock protein system (Psp) is a conserved extracytoplasmic stress response that is essential for the virulence of some pathogens, including Yersinia enterocolitica
We focused on using PspB or PspC as the bait, because these two proteins are essential for secretin-dependent induction of the Psp response, and they are sufficient to prevent mislocalized secretins from killing cells [24, 25]
The “phage shock” name arose because the Psp response was induced during filamentous phage infection of E. coli, which resulted from the phage-carried pIV secretin gene being mislocalized into the inner membrane (IM) [10, 32]
Summary
The bacterial phage shock protein system (Psp) is a conserved extracytoplasmic stress response that is essential for the virulence of some pathogens, including Yersinia enterocolitica. This study provides a critical advance by discovering that Psp effector proteins form a complex with secretins in the Yersinia enterocolitica inner membrane This interaction is absolutely dependent on a secretin adopting its multimeric state. The Psp system has been studied extensively in Escherichia coli and in the human pathogen Yersinia enterocolitica, where it is essential for virulence [9] It can be induced by a variety of conditions, including extreme temperatures, osmolarity, and ethanol concentrations, all of which could have a negative impact on the inner membrane (IM) [7, 8]. Secretins have been divided into those that can or cannot multimerize spontaneously, a property that is influenced by a conserved proline residue [23]
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