Vaginal Lactobacillus fatty acid response mechanisms reveal a metabolite-targeted strategy for bacterial vaginosis treatment

Meilin Zhu, Matthew W. Frank, Christopher D. Radka, Sarah Jeanfavre, Jiawu Xu, Megan W. Tse, Julian Avila Pacheco, Jae Sun Kim, Kerry Pierce, Amy Deik, Fatima Aysha Hussain, Joseph Elsherbini, Salina Hussain, Nondumiso Xulu, Nasreen Khan, Vanessa Pillay, Caroline M. Mitchell, Krista L. Dong, Thumbi Ndung'u, Clary B. ClishCharles O. Rock, Paul C. Blainey, Seth M. Bloom, Douglas S. Kwon

Research output: Contribution to journalArticlepeer-review

2 Citations (SciVal)

Abstract

Bacterial vaginosis (BV), a common syndrome characterized by Lactobacillus-deficient vaginal microbiota, is associated with adverse health outcomes. BV often recurs after standard antibiotic therapy in part because antibiotics promote microbiota dominance by Lactobacillus iners instead of Lactobacillus crispatus, which has more beneficial health associations. Strategies to promote L. crispatus and inhibit L. iners are thus needed. We show that oleic acid (OA) and similar long-chain fatty acids simultaneously inhibit L. iners and enhance L. crispatus growth. These phenotypes require OA-inducible genes conserved in L. crispatus and related lactobacilli, including an oleate hydratase (ohyA) and putative fatty acid efflux pump (farE). FarE mediates OA resistance, while OhyA is robustly active in the vaginal microbiota and enhances bacterial fitness by biochemically sequestering OA in a derivative form only ohyA-harboring organisms can exploit. OA promotes L. crispatus dominance more effectively than antibiotics in an in vitro BV model, suggesting a metabolite-based treatment approach.

Original languageEnglish
Pages (from-to)5413-5430.e29
JournalCell
Volume187
Issue number19
DOIs
StatePublished - Sep 19 2024

Bibliographical note

Publisher Copyright:
© 2024 The Authors

Keywords

  • bacterial vaginosis
  • female genital tract
  • Lactobacillus
  • metabolism
  • vaginal microbiome
  • women's health

ASJC Scopus subject areas

  • General Biochemistry, Genetics and Molecular Biology

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