Vibrio cholerae01 can assume a ‘rugose’ survival form that resists killing by chlorine, yet retains virulence

Abstract

Vibrio cholerae 01 is able to shift between smooth and rugose colonial morphologies. Cultures of smooth V. cholerae strains were inactivated in less than 20 s at a concentration of 1.0 mg l^‐1 free chlorine. In contrast, cultures of rugose variants exposed to this concentration of chlorine showed an initial rapid drop in viable counts, followed by persistence of a protected subpopulation of cells. Viable V. cholerae could still be recovered from rugose cultures even after exposure to 2.0 mg l^‐1 free chlorine for 30 min. Preliminary studies suggest that resistance to killing by chlorine was due to formation of cell aggregates enclosed in a gelatinous mucoid material. Rugose strains appeared to be fully virulent, based on their ability to adhere to Caco‐2 cells and elicit fluid accumulation in rabbit ileal loops. Our data suggest that the V. cholerae rugose phenotype represents a fully virulent survival form of the organism that can persist in the presence of free chlorine.