Environmental bacteriophages active on biofilms and planktonic forms of toxigenic Vibrio cholerae: Potential relevance in cholera epidemiology

In cholera-endemic areas, toxigenic Vibrio cholerae persist in the aquatic ecosystem mostly in a biofilm-associated state in which the bacteria remain embedded in an exopolysaccharide matrix. The biofilm-associated cells often enter into a dormant form referred to as conditionally viable environmental cells (CVEC), which resist cultivation on routine bacteriological media. However, these cells can naturally resuscitate into the active planktonic form through various mechanisms, multiply, and cause epidemics of cholera. This study was conducted to study possible effects of environmental bacteriophages on the prevalence and distribution of the pathogen between the biofilm associated state, and the planktonic form.MethodsPhages isolated from environmental waters in Bangladesh were tested for their host specificity towards V. cholerae O1 and O139, and the ability to disperse V. cholerae biofilms formed in the laboratory. Representative phages were further characterized by electron microscopy and whole genome sequencing. Selected phages were then introduced in various combinations to biofilms of toxigenic V. cholerae added to samples of river water, and the dispersion of biofilms as well as the growth kinetics of V. cholerae and the phages were monitored.ResultsA phage cocktail composed of three different phages isolated from surface waters in Bangladesh and designated as JSF7, JSF4, and JSF3 could significantly influence the distribution and concentration of the active planktonic form and biofilm associated form of toxigenic V. cholerae in water. While JSF7 showed a biofilm degrading activity and dispersed cells from both V. cholerae O1 and O139 derived biofilms thus increasing the concentration of planktonic V. cholerae in water, JSF4 and JSF3 showed strong bactericidal activity against V. cholerae O1 and O139 respectively. A mixture of all three phages could effectively reduce both biofilm-associated and planktonic V. cholerae in river water microcosms.SignificanceBesides potential applicability in phage-mediated control of cholera, our results have relevance in appreciating possible intricate role of diverse environmental phages in the epidemiology of the disease, since both biofilms and phages influence the prevalence and infectivity of V. cholerae in a variety of ways.