Author: Law D.
Publisher: Springer Publishing Company
ISSN: 0959-3993
Source: World Journal of Microbiology and Biotechnology, Vol.16, Iss.8-9, 2000-01, pp. : 701-709
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Abstract
Shiga toxin-producing Escherichia coli (STEC) O157 is a formidable human pathogen with the capacity to cause large outbreaks of gastrointestinal illness. The known virulence factors of this organism are encoded on phage, plasmid and chromosomal genes. There are also likely to be novel, as yet unknown virulence factors in this organism. Many of these virulence factors have been acquired by E. coli O157 by transfer from other organisms, both E. coli and non-E. coli species. By examination of biochemical and genetic characteristics of various E. coli O157 strains and the relationships with other organisms, an evolutionary pathway for development of E. coli O157 as a pathogen has been proposed. E. coli O157 evolved from an enteropathogenic E. coli ancestor of serotype O55:H7, which contained the locus of enterocyte effacement containing the adhesin intimin. During the evolutionary process, Shiga toxins, the pO157 plasmid and other characteristics which enhanced virulence were acquired and other functions such as motility, sorbitol fermentation and β-glucuronidase activity were lost by some strains. It is likely that E. coli O157 is constantly evolving, and changes can be detected in genetic patterns during the course of infection. A variety of mechanisms may be responsible for the development of the virulent phenotype that we see today. Such changes include uptake of as yet uncharacterised virulence factors, possibly enhanced by a mutator phenotype, recombination within virulence genes to produce variant genes with different properties, loss of large segments of DNA (black holes) to enhance virulence and possible adaptation to different hosts. Although little is known about the evolution of non-O157 STEC it is likely that the most virulent clones evolved in a similar manner to E. coli O157.
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