Temperature regulation of virulence factors in the pathogen <i>Vibrio coralliilyticus</i>

TitleTemperature regulation of virulence factors in the pathogen Vibrio coralliilyticus
Publication TypeJournal Articles
Year of Publication2011
AuthorsKimes NE, Grim CJ, Johnson WR, Hasan NA, Tall BD, Kothary MH, Kiss H, Munk CA, Tapia R, Green L, Detter C, Bruce DC, Brettin TS, Colwell RR, Morris PJ
JournalThe ISME Journal
Volume6
Issue4
Pagination835 - 846
Date Published2011/12/08/
ISBN Number1751-7362
Keywordsecophysiology, ecosystems, environmental biotechnology, geomicrobiology, ISME J, microbe interactions, microbial communities, microbial ecology, microbial engineering, microbial epidemiology, microbial genomics, microorganisms
Abstract

Sea surface temperatures (SST) are rising because of global climate change. As a result, pathogenic Vibrio species that infect humans and marine organisms during warmer summer months are of growing concern. Coral reefs, in particular, are already experiencing unprecedented degradation worldwide due in part to infectious disease outbreaks and bleaching episodes that are exacerbated by increasing SST. For example, Vibrio coralliilyticus, a globally distributed bacterium associated with multiple coral diseases, infects corals at temperatures above 27 °C. The mechanisms underlying this temperature-dependent pathogenicity, however, are unknown. In this study, we identify potential virulence mechanisms using whole genome sequencing of V. coralliilyticus ATCC (American Type Culture Collection) BAA-450. Furthermore, we demonstrate direct temperature regulation of numerous virulence factors using proteomic analysis and bioassays. Virulence factors involved in motility, host degradation, secretion, antimicrobial resistance and transcriptional regulation are upregulated at the higher virulent temperature of 27 °C, concurrent with phenotypic changes in motility, antibiotic resistance, hemolysis, cytotoxicity and bioluminescence. These results provide evidence that temperature regulates multiple virulence mechanisms in V. coralliilyticus, independent of abundance. The ecological and biological significance of this temperature-dependent virulence response is reinforced by climate change models that predict tropical SST to consistently exceed 27 °C during the spring, summer and fall seasons. We propose V. coralliilyticus as a model Gram-negative bacterium to study temperature-dependent pathogenicity in Vibrio-related diseases.

URLhttp://www.nature.com/ismej/journal/v6/n4/full/ismej2011154a.html
DOI10.1038/ismej.2011.154