Population analysis ofVibrio choleraein aquatic reservoirs reveals a novel sister species(Vibrio paracholeraesp. nov.) with a history of association with human infections

AbstractMost efforts to understand the biology ofVibrio choleraehave focused on a single group, the pandemic-generating lineage harbouring the strains responsible for all known cholera pandemics. Consequently, little is known about the diversity of this species in its native aquatic environment. To understand the differences in theV. choleraepopulations inhabiting in regions with varying history of cholera cases and how that might influence the abundance of pandemic strains, a comparative analysis of population composition was performed. Little overlap was found in lineage compositions between those in Dhaka (cholera endemic) located in the Ganges delta, and of Falmouth (no known history of cholera), a small coastal town on the US East Coast. The most striking difference was the presence of a group of related lineages at high abundance in Dhaka which was completely absent from Falmouth. Phylogenomic analysis revealed that these lineages form a cluster at the base of the phylogeny ofV. choleraespecies, sufficiently differentiated genetically and phenotypically to form a novel species. Strains from this species have been anecdotally isolated from around the world and were isolated as early as 1916 from a British soldier in Egypt suffering from choleraic diarrhoea. In 1935 Gardner and Venkatraman unofficially referred to a member of this group asVibrio paracholerae. In recognition of this earlier designation, we propose the nameVibrio paracholerae, sp. nov. for this bacterium. Genomic analysis suggests a link with human populations for this novel species and substantial interaction with its better-known sister species.ImportanceCholera continues to remain a major public health threat around the globe. Understanding the ecology, evolution and environmental adaptation of the causative agentVibrio choleraeand tracking the emergence of novel lineages with pathogenic potential are essential to combat the problem. In this study, we investigated the population dynamics ofVibrio choleraein an inland locality which is known as endemic for cholera and compared with that of a cholera free coastal location. We found the consistent presence of the pandemic generatingV. choleraein cholera-endemic Dhaka and an exclusive presence of a lineage phylogenetically distinct from otherV. cholerae. Our study suggests that this lineage represents a novel species having pathogenic potential and a human link to its environmental abundance. The possible association with human population, co-existence and interaction with toxigenicV. choleraein the natural environment make this potential human pathogen an important subject for future studies.