The multifunction Coxiella effector Vice stimulates macropinocytosis and interferes with the ESCRT machinery

  1. Arthur Bienvenu
  2. Melanie Burette
  3. Franck Cantet
  4. Manon Gourdelier
  5. Jitendriya Swain
  6. Chantal Cazevieille
  7. Tatiana Clemente
  8. Arif Sadi
  9. Claire Dupont
  10. Manon Le Fe
  11. Nicolas Bonetto
  12. Benoit Bordignon
  13. Delphine Muriaux
  14. Stacey Gilk
  15. Matteo Bonazzi
  16. Eric Martinez
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Abstract

Intracellular bacterial pathogens divert multiple cellular pathways to establish their niche and persist inside their host. Coxiella burnetii , the causative agent of Q fever, secretes bacterial effector proteins via its Type 4 secretion system to generate a Coxiella -containing vacuole (CCV). Manipulation of lipid and protein trafficking by these effectors is essential for bacterial replication and virulence. Here, we have characterized the lipid composition of CCVs and discovered that the effector Vice interacts with phosphoinositides and membranes enriched in phosphatidylserine (PS) and lysobisphosphatidic acid (LBPA). Remarkably, eukaryotic cells ectopically expressing Vice present compartments that resemble early CCVs in both morphology and composition. We discovered that the biogenesis of these compartments relies on the double function of Vice. The effector protein initially localizes at the plasma membrane of eukaryotic cells where it triggers the internalization of large vacuoles by macropinocytosis. Then, Vice stabilizes these compartments by perturbing the ESCRT machinery and inhibiting the formation of intraluminal vesicles (ILVs). Collectively, our results reveal that Vice is an essential C. burnetii effector protein capable of hijacking two major cellular pathways to shape the bacterial replicative niche.

Significance statement

Coxiella burnetii is a unique bacterial pathogen that secretes more than a hundred effector proteins to manipulate cellular processes and establish a replicative niche, the Coxiella -containing vacuole (CCV). Our study identified host cell lipids that are actively recruited by the bacterium to the CCV. Using a library of effector mutants, we identified the protein Vice (for Vacuole-inducing Coxiella effector) as the first bacterial effector capable of interacting with lysobisphosphatydic acid-enriched membranes and accumulating this lipid to CCVs. We show that Vice is also capable of stimulating macropinocytosis and inhibiting the ESCRT machinery. Together, our data show how a single bacterial effector can manipulate different cellular processes to favor the biogenesis of a bacterial pathogen’s niche.

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  1. Version published to 10.1101/2024.03.13.584753v1 on bioRxiv