Epidemiology, Genetics, and Ecology of Toxigenic Vibrio cholerae

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Microbiology and Molecular Biology Reviews, December 1998, p. 1301-1314, Vol. 62, No. 4
1092-2172/98/$04.00+0
Copyright © 1998, American Society for Microbiology. All rights reserved.

Epidemiology, Genetics, and Ecology of Toxigenic Vibrio cholerae

Shah M. Faruque,¹^,^* M. John Albert, and John J. Mekalanos²

Molecular Genetics Laboratory, International Centre for Diarrhoeal Disease Research, Bangladesh, Dhaka-1000, Bangladesh,¹ and Department of Microbiology and Molecular Genetics, Harvard Medical School, Boston, Massachusetts 02115²

Cholera caused by toxigenic Vibrio cholerae is a major public health problem confronting developing countries, where outbreaksoccur in a regular seasonal pattern and are particularly associatedwith poverty and poor sanitation. The disease is characterizedby a devastating watery diarrhea which leads to rapid dehydration,and death occurs in 50 to 70% of untreated patients. Cholera isa waterborne disease, and the importance of water ecology is suggestedby the close association of V. cholerae with surface water andthe population interacting with the water. Cholera toxin (CT),which is responsible for the profuse diarrhea, is encoded by alysogenic bacteriophage designated CTX $Phi$ . Although the mechanismby which CT causes diarrhea is known, it is not clear why V. choleraeshould infect and elaborate the lethal toxin in the host. Molecularepidemiological surveillance has revealed clonal diversity amongtoxigenic V. cholerae strains and a continual emergence of newepidemic clones. In view of lysogenic conversion by CTX $Phi$ as apossible mechanism of origination of new toxigenic clones of V.cholerae, it appears that the continual emergence of new toxigenicstrains and their selective enrichment during cholera outbreaksconstitute an essential component of the natural ecosystem forthe evolution of epidemic V. cholerae strains and genetic elementsthat mediate the transfer of virulence genes. The ecosystem comprisingV. cholerae, CTX $Phi$ , the aquatic environment, and the mammalianhost offers an understanding of the complex relationship betweenpathogenesis and the natural selection of apathogen.

^* Corresponding author. Mailing address: Molecular Genetics Laboratory, Laboratory Sciences Division, ICDDR,B, GPO Box 128,Dhaka-1000, Bangladesh. Phone: 880 2 871751 to -60. Fax: 880 2872529 and 880 2 883116. E-mail: faruque{at}icddrb.org.

Microbiology and Molecular Biology Reviews, December 1998, p. 1301-1314, Vol. 62, No. 4
1092-2172/98/$04.00+0
Copyright © 1998, American Society for Microbiology. All rights reserved.

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Zhu, J., Miller, M. B., Vance, R. E., Dziejman, M., Bassler, B. L., Mekalanos, J. J. (2002). Quorum-sensing regulators control virulence gene expression in Vibrio cholerae. Proc. Natl. Acad. Sci. USA 10.1073/pnas.052694299v1 [Abstract] [Full Text]
Dziejman, M., Balon, E., Boyd, D., Fraser, C. M., Heidelberg, J. F., Mekalanos, J. J. (2002). Comparative genomic analysis of Vibrio cholerae: Genes that correlate with cholera endemic and pandemic disease. Proc. Natl. Acad. Sci. USA 10.1073/pnas.042667999v1 [Abstract] [Full Text]
Wibbenmeyer, J. A., Provenzano, D., Landry, C. F., Klose, K. E., Delcour, A. H. (2002). Vibrio cholerae OmpU and OmpT Porins Are Differentially Affected by Bile. Infect. Immun. 70: 121-126 [Abstract] [Full Text]
Faruque, S. M., Asadulghani, , Kamruzzaman, M., Nandi, R. K., Ghosh, A. N., Nair, G. B., Mekalanos, J. J., Sack, D. A. (2002). RS1 Element of Vibrio cholerae Can Propagate Horizontally as a Filamentous Phage Exploiting the Morphogenesis Genes of CTX{Phi}. Infect. Immun. 70: 163-170 [Abstract] [Full Text]
Julio, S. M., Heithoff, D. M., Provenzano, D., Klose, K. E., Sinsheimer, R. L., Low, D. A., Mahan, M. J. (2001). DNA Adenine Methylase Is Essential for Viability and Plays a Role in the Pathogenesis of Yersinia pseudotuberculosis and Vibrio cholerae. Infect. Immun. 69: 7610-7615 [Abstract] [Full Text]
Dalsgaard, A., Serichantalergs, O., Forslund, A., Lin, W., Mekalanos, J., Mintz, E., Shimada, T., Wells, J. G. (2001). Clinical and Environmental Isolates of Vibrio cholerae Serogroup O141 Carry the CTX Phage and the Genes Encoding the Toxin-Coregulated Pili. J. Clin. Microbiol. 39: 4086-4092 [Abstract] [Full Text]
Scott, M. E., Dossani, Z. Y., Sandkvist, M. (2001). Directed polar secretion of protease from single cells of Vibrio cholerae via the type II secretion pathway. Proc. Natl. Acad. Sci. USA 10.1073/pnas.241411198v1 [Abstract] [Full Text]
Faruque, S. M., Rahman, M. M., Hasan, A. K. M. M., Nair, G. B., Mekalanos, J. J., Sack, D. A. (2001). Diminished Diarrheal Response to Vibrio cholerae Strains Carrying the Replicative Form of the CTX{Phi} Genome instead of CTX{Phi} Lysogens in Adult Rabbits. Infect. Immun. 69: 6084-6090 [Abstract] [Full Text]
Mukhopadhyay, A. K., Chakraborty, S., Takeda, Y., Nair, G. B., Berg, D. E. (2001). Characterization of VPI Pathogenicity Island and CTX{phi} Prophage in Environmental Strains of Vibrio cholerae. J. Bacteriol. 183: 4737-4746 [Abstract] [Full Text]
Chiavelli, D. A., Marsh, J. W., Taylor, R. K. (2001). The Mannose-Sensitive Hemagglutinin of Vibrio cholerae Promotes Adherence to Zooplankton. Appl. Environ. Microbiol. 67: 3220-3225 [Abstract] [Full Text]
Rivera, I. N. G., Chun, J., Huq, A., Sack, R. B., Colwell, R. R. (2001). Genotypes Associated with Virulence in Environmental Isolates of Vibrio cholerae. Appl. Environ. Microbiol. 67: 2421-2429 [Abstract] [Full Text]
FEODOROVA, V.A., GROMOVA, O.V., DEVDARIANI, Z.L., DZHAPARIDZE, M.N., TERYOSHKINA, N.Y. (2001). Immunochemical characterisation of Vibrio cholerae O139 O antigens and production of a diagnostic antiserum without absorption. J Med Microbiol 50: 499-508 [Abstract] [Full Text]
Figueroa-Arredondo, P., Heuser, J. E., Akopyants, N. S., Morisaki, J. H., Giono-Cerezo, S., Enriquez-Rincon, F., Berg, D. E. (2001). Cell Vacuolation Caused by Vibrio cholerae Hemolysin. Infect. Immun. 69: 1613-1624 [Abstract] [Full Text]
Singh, D. V., Matte, M. H., Matte, G. R., Jiang, S., Sabeena, F., Shukla, B. N., Sanyal, S. C., Huq, A., Colwell, R. R. (2001). Molecular Analysis of Vibrio cholerae O1, O139, non-O1, and non-O139 Strains: Clonal Relationships between Clinical and Environmental Isolates. Appl. Environ. Microbiol. 67: 910-921 [Abstract] [Full Text]
Nesper, J., Lauriano, C. M., Klose, K. E., Kapfhammer, D., Krai{beta}, A., Reidl, J. (2001). Characterization of Vibrio cholerae O1 El Tor galU and galE Mutants: Influence on Lipopolysaccharide Structure, Colonization, and Biofilm Formation. Infect. Immun. 69: 435-445 [Abstract] [Full Text]
Farfán, M., Miñana, D., Fusté, M. C., Lorén, J. G. (2000). Genetic relationships between clinical and environmental Vibrio cholerae isolates based on multilocus enzyme electrophoresis. Microbiology 146: 2613-2626 [Abstract] [Full Text]
Punj, V., Zaborina, O., Dhiman, N., Falzari, K., Bagdasarian, M., Chakrabarty, A. M. (2000). Phagocytic Cell Killing Mediated by Secreted Cytotoxic Factors of Vibrio cholerae. Infect. Immun. 68: 4930-4937 [Abstract] [Full Text]
Faruque, S. M., Asadulghani, , Rahman, M. M., Waldor, M. K., Sack, D. A. (2000). Sunlight-Induced Propagation of the Lysogenic Phage Encoding Cholera Toxin. Infect. Immun. 68: 4795-4801 [Abstract] [Full Text]
Tendeng, C., Badaut, C., Krin, E., Gounon, P., Ngo, S., Danchin, A., Rimsky, S., Bertin, P. (2000). Isolation and Characterization of vicH, Encoding a New Pleiotropic Regulator in Vibrio cholerae. J. Bacteriol. 182: 2026-2032 [Abstract] [Full Text]

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