FtsH-dependent degradation of phage shock protein C in Yersinia enterocolitica and Escherichia coli.

The widely conserved phage shock protein (Psp) extracytoplasmic stress response has been studied extensively in Escherichia coli and Yersinia enterocolitica. Both species have the PspF, -A, -B, and -C proteins, which have been linked to robust phenotypes, including Y. enterocolitica virulence. PspB and PspC are cytoplasmic membrane proteins required for stress-dependent induction of psp gene expression and for bacterial survival during the mislocalization of outer membrane secretin proteins. Previously, we reported that Y. enterocolitica PspB functions to positively control the amount of PspC by an uncharacterized posttranscriptional mechanism. In this study, we have discovered that the cytoplasmic membrane protease FtsH is involved in this phenomenon. FtsH destabilizes PspC in Y. enterocolitica, but coproduction of PspC with its binding partner PspB was sufficient to prevent this destabilization. In contrast, FtsH did not affect any other core component of the Psp system. These data suggested that uncomplexed PspC might be particularly deleterious to the bacterial cell and that FtsH acts as an important quality control mechanism to remove it. This was supported by the observation that toxicity caused by PspC production was reduced either by coproduction of PspB or by increased synthesis of FtsH. We also found that the phenomenon of FtsH-dependent PspC destabilization is conserved between Y. enterocolitica and E. coli.