Population Relationship of Vibrio parahaemolyticus Isolates Derived from Aquaculture Ponds, a Seafood Market, Restaurants, and Clinical Samples.

To study the relationship between environmental and clinical populations of Vibrio parahaemolyticus, we collected in total 86 isolates from Southern China during one and a half years. Sixty-eight isolates were recovered from aquaculture ponds, a seafood market, and restaurants, and 18 isolates were recovered from clinical samples. Virulence gene analysis revealed that 25 isolates (14 clinical and 11 environmental) tested positive for tdh, but only 4 carried trh. Interestingly, none of the tdh(+) environmental isolates was recovered from ponds. Both environmental and clinical tdh(+) isolates, except for one clinical isolate, harbor type III secretion system 2α (T3SS2α) and T3SS2ß-related genes, including vopB2α, which was previously suggested to be absent from environmental strains. More than 70% of clinical isolates carried the pandemic marker of new toxRS (GS-PCR(+)), which was not present in the environmental isolates. Pulsed-field gel electrophoresis and multilocus sequence typing analysis showed a high degree of genetic diversity within the environmental isolates. In contrast, the clinical population formed a tight cluster that differed from the environmental isolates. These findings suggest that the pandemic strains of V. parahaemolyticus may not directly originate from marine animals. Rather the environments where they are maintained could serve as reservoirs for toxigenic, but not pandemic strains. These environments provide an ideal place for generation of new toxigenic strains through DNA exchange, which was revealed by extensive recombination events in recA sequences of the environmental isolates.

Characterization of role of the toxR gene in the physiology and pathogenicity of Vibrio alginolyticus.

toxR, a conserved virulence-associated gene in vibrios, is identified in Vibrio alginolyticus ZJ51-O, a pathogenic strain isolated from diseased fish. To reveal the role of ToxR in the pathogenicity of V. alginolyticus, a deletion mutant was constructed by allelic exchange. The mutant showed the same level of growth in trypticase soy broth (TSB) and iron-limiting condition, as the wild type strain. However, deletion of toxR severely reduced resistance against bile salts and the capability of biofilm formation. Outer-membrane protein (OMP) analysis showed that a 37-kD protein was absent and a 43-kD protein was decreased in the mutant. By MS/MS, the two proteins are identified as the homologues of OmpT and OmpN, respectively. These data suggest that ToxR might have enhanced the bile resistance and biofilm formation through modulating the production of OMP without affecting the ability of iron acquisition and the virulence to the fish via injection. These results indicate that ToxR may assist V. alginolyticus to colonize on the surface of the fish intestine which is crucial for the initiation of the infection, though it may not be involved in the proliferation of the bacteria in the host tissue.