PLoS Genetics (Aug 2024)

The HtrA chaperone monitors sortase-assembled pilus biogenesis in Enterococcus faecalis.

  • Cristina Colomer-Winter,
  • Adeline M H Yong,
  • Kelvin K L Chong,
  • Mark Veleba,
  • Pei Yi Choo,
  • Iris Hanxing Gao,
  • Artur Matysik,
  • Foo Kiong Ho,
  • Swaine L Chen,
  • Kimberly A Kline

DOI
https://doi.org/10.1371/journal.pgen.1011071
Journal volume & issue
Vol. 20, no. 8
p. e1011071

Abstract

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Sortase-assembled pili contribute to virulence in many Gram-positive bacteria. In Enterococcus faecalis, the endocarditis and biofilm-associated pilus (Ebp) is polymerized on the membrane by sortase C (SrtC) and attached to the cell wall by sortase A (SrtA). In the absence of SrtA, polymerized pili remain anchored to the membrane (i.e. off-pathway). Here we show that the high temperature requirement A (HtrA) bifunctional chaperone/protease of E. faecalis is a quality control system that clears aberrant off-pathway pili from the cell membrane. In the absence of HtrA and SrtA, accumulation of membrane-bound pili leads to cell envelope stress and partially induces the regulon of the ceftriaxone resistance-associated CroRS two-component system, which in turn causes hyper-piliation and cell morphology alterations. Inactivation of croR in the OG1RF ΔsrtAΔhtrA background partially restores the observed defects of the ΔsrtAΔhtrA strain, supporting a role for CroRS in the response to membrane perturbations. Moreover, absence of SrtA and HtrA decreases basal resistance of E. faecalis against cephalosporins and daptomycin. The link between HtrA, pilus biogenesis and the CroRS two-component system provides new insights into the E. faecalis response to endogenous membrane perturbations.