PLoS Biology (Jan 2023)

Competence remodels the pneumococcal cell wall exposing key surface virulence factors that mediate increased host adherence.

  • Vikrant Minhas,
  • Arnau Domenech,
  • Dimitra Synefiaridou,
  • Daniel Straume,
  • Max Brendel,
  • Gonzalo Cebrero,
  • Xue Liu,
  • Charlotte Costa,
  • Mara Baldry,
  • Jean-Claude Sirard,
  • Camilo Perez,
  • Nicolas Gisch,
  • Sven Hammerschmidt,
  • Leiv Sigve Håvarstein,
  • Jan-Willem Veening

DOI
https://doi.org/10.1371/journal.pbio.3001990
Journal volume & issue
Vol. 21, no. 1
p. e3001990

Abstract

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Competence development in the human pathogen Streptococcus pneumoniae controls several features such as genetic transformation, biofilm formation, and virulence. Competent bacteria produce so-called "fratricins" such as CbpD that kill noncompetent siblings by cleaving peptidoglycan (PGN). CbpD is a choline-binding protein (CBP) that binds to phosphorylcholine residues found on wall and lipoteichoic acids (WTA and LTA) that together with PGN are major constituents of the pneumococcal cell wall. Competent pneumococci are protected against fratricide by producing the immunity protein ComM. How competence and fratricide contribute to virulence is unknown. Here, using a genome-wide CRISPRi-seq screen, we show that genes involved in teichoic acid (TA) biosynthesis are essential during competence. We demonstrate that LytR is the major enzyme mediating the final step in WTA formation, and that, together with ComM, is essential for immunity against CbpD. Importantly, we show that key virulence factors PspA and PspC become more surface-exposed at midcell during competence, in a CbpD-dependent manner. Together, our work supports a model in which activation of competence is crucial for host adherence by increased surface exposure of its various CBPs.