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West African–South American pandemic Vibrio cholerae encodes multiple distinct phage defence systems

David W. Adams, Milena Jaskólska, Alexandre Lemopoulos, Sandrine Stutzmann, Laurie Righi, Loriane Bader, Melanie Blokesch

2025Nature Microbiology15 citationsDOIOpen Access PDF

Abstract

Our understanding of the factors underlying the evolutionary success of different lineages of pandemic Vibrio cholerae remains incomplete. The West African-South American (WASA) lineage of V. cholerae, responsible for the 1991-2001 Latin American cholera epidemic, is defined by two unique genetic signatures. Here we show that these signatures encode multiple distinct anti-phage defence systems. Firstly, the WASA-1 prophage encodes an abortive-infection system, WonAB, that renders the lineage resistant to the major predatory vibriophage ICP1, which, alongside other phages, is thought to restrict cholera epidemics. Secondly, a unique set of genes on the Vibrio seventh pandemic island II encodes an unusual modification-dependent restriction system targeting phages with modified genomes, and a previously undescribed member of the Shedu defence family that defends against vibriophage X29. We propose that these anti-phage defence systems likely contributed to the success of a major epidemic lineage of the ongoing seventh cholera pandemic.

Topics & Concepts

Vibrio choleraeProphageLineage (genetic)CholeraBiologyPandemicGenomeEl TorGeneGeneticsBacteriophageVirologyCoronavirus disease 2019 (COVID-19)BacteriaMedicineInfectious disease (medical specialty)DiseaseEscherichia coliPathologyVibrio bacteria research studiesBacteriophages and microbial interactionsAquaculture disease management and microbiota
West African–South American pandemic Vibrio cholerae encodes multiple distinct phage defence systems | Litcius