A second chromosomal gene necessary for intimate attachment of enteropathogenic Escherichia coli to epithelial cells

Enteropathogenic Escherichia coli (EPEC) is capable of attaching intimately to epithelial cells and effacing their microvilli. A chromosomal locus, eaeA (originally eae), is required for the intimate attachment aspect of this effect. We report the mapping of a region of the EPEC chromosome that is located immediately downstream of the eaeA gene and that is also necessary for intimate attachment. An isogenic in-frame deletion mutation in one of the open reading frames identified in this region was engineered. Because the resulting mutant, like an eaeA deletion mutant, is deficient in the ability to attach intimately to epithelial cells, the mutated gene is designated eaeB. Full activity is restored to the eaeB mutant when the cloned gene is reintroduced on a plasmid. The eaeB mutant remains capable of producing intimin, the product of the eaeA gene. No differences in the fractionation properties or electrophoretic mobility of intimin are apparent in the eaeB mutant. The product of the eaeB locus was identified by in vitro transcription-translation. The nucleotide sequence of the eaeB gene predicts a protein that contains a sequence motif common to several aminotransferase enzymes. These results indicate that the attaching and effacing effect is a complex phenotype dependent on a gene cluster present on the EPEC chromosome.

[1]  M. Levine,et al.  Role of the eaeA gene in experimental enteropathogenic Escherichia coli infection. , 1993, The Journal of clinical investigation.

[2]  S. Falkow,et al.  Attaching and effacing locus of a Citrobacter freundii biotype that causes transmissible murine colonic hyperplasia , 1993, Infection and immunity.

[3]  S. Faruque,et al.  Sharing of virulence-associated properties at the phenotypic and genetic levels between enteropathogenic Escherichia coli and Hafnia alvei. , 1992, Journal of medical microbiology.

[4]  J. Nataro,et al.  A plasmid‐encoded type IV fimbrial gene of enteropathogenic Escherichia coli associated with localized adherence , 1992, Molecular microbiology.

[5]  B. Finlay,et al.  Signal transduction between enteropathogenic Escherichia coli (EPEC) and epithelial cells: EPEC induces tyrosine phosphorylation of host cell proteins to initiate cytoskeletal rearrangement and bacterial uptake. , 1992, The EMBO journal.

[6]  B. Finlay,et al.  Cytoskeletal composition of attaching and effacing lesions associated with enteropathogenic Escherichia coli adherence to HeLa cells , 1992, Infection and immunity.

[7]  J. Kaper,et al.  Construction of an eae deletion mutant of enteropathogenic Escherichia coli by using a positive-selection suicide vector , 1991, Infection and immunity.

[8]  J. Kaper,et al.  The eae gene of enteropathogenic Escherichia coli encodes a 94-kilodalton membrane protein, the expression of which is influenced by the EAF plasmid , 1991, Infection and immunity.

[9]  P. Williams,et al.  Purification of a 20 kDa phosphoprotein from epithelial cells and identification as a myosin light chain Phosphorylation induced by enteropathogenicEscherichia coli and phorbol ester , 1991, FEBS letters.

[10]  J. Kaper,et al.  Plasmid and chromosomal elements involved in the pathogenesis of attaching and effacing Escherichia coli , 1991, Infection and immunity.

[11]  J. Brown,et al.  Attaching and effacing enteropathogenic Escherichia coli as a cause of infantile diarrhea in Bangkok. , 1991, The Journal of infectious diseases.

[12]  P. Cossart,et al.  Entry of L. monocytogenes into cells is mediated by internalin, a repeat protein reminiscent of surface antigens from gram-positive cocci , 1991, Cell.

[13]  J. Issartel,et al.  Activation of Escherichia coli prohaemolysin to the mature toxin by acyl carrier protein-dependent fatty acylation , 1991, Nature.

[14]  I. Blomfield,et al.  Allelic exchange in Escherichia coli using the Bacillus subtilis sacB gene and a temperature‐sensitive pSC101 replicon , 1991, Molecular microbiology.

[15]  P. Williams,et al.  Elevation of intracellular free calcium levels in HEp-2 cells infected with enteropathogenic Escherichia coli , 1991, Infection and immunity.

[16]  A. Cravioto,et al.  Association of Escherichia coli HEp-2 adherence patterns with type and duration of diarrhoea , 1991, The Lancet.

[17]  K. Kain,et al.  Etiology of childhood diarrhea in Beijing, China , 1991, Journal of clinical microbiology.

[18]  J. Yu,et al.  A genetic locus of enteropathogenic Escherichia coli necessary for the production of attaching and effacing lesions on tissue culture cells. , 1990, Proceedings of the National Academy of Sciences of the United States of America.

[19]  G. Keusch,et al.  Construction and analysis of TnphoA mutants of enteropathogenic Escherichia coli unable to invade HEp-2 cells , 1990, Infection and immunity.

[20]  G. Keusch,et al.  Epithelial cell invasion: an overlooked property of enteropathogenic Escherichia coli (EPEC) associated with the EPEC adherence factor. , 1989, The Journal of infectious diseases.

[21]  P. Blake,et al.  Serotype-specific prevalence of Escherichia coli strains with EPEC adherence factor genes in infants with and without diarrhea in São Paulo, Brazil. , 1989, The Journal of infectious diseases.

[22]  J. I. Phillips,et al.  Invasive potential of noncytotoxic enteropathogenic Escherichia coli in an in vitro Henle 407 cell model , 1989, Infection and immunity.

[23]  P. Williams,et al.  Actin accumulation at sites of bacterial adhesion to tissue culture cells: basis of a new diagnostic test for enteropathogenic and enterohemorrhagic Escherichia coli , 1989, Infection and immunity.

[24]  J. R. Andrade,et al.  An endocytic process in HEp-2 cells induced by enteropathogenic Escherichia coli. , 1989, Journal of medical microbiology.

[25]  J. Mekalanos,et al.  A novel suicide vector and its use in construction of insertion mutations: osmoregulation of outer membrane proteins and virulence determinants in Vibrio cholerae requires toxR , 1988, Journal of bacteriology.

[26]  C. Richardson,et al.  DNA sequence analysis with a modified bacteriophage T7 DNA polymerase. , 1987, Proceedings of the National Academy of Sciences of the United States of America.

[27]  A. Collmer,et al.  An nptI-sacB-sacR cartridge for constructing directed, unmarked mutations in gram-negative bacteria by marker exchange-eviction mutagenesis. , 1987, Gene.

[28]  M. Levine,et al.  The diarrheal response of humans to some classic serotypes of enteropathogenic Escherichia coli is dependent on a plasmid encoding an enteroadhesiveness factor. , 1985, The Journal of infectious diseases.

[29]  M. Levine,et al.  Plasmid-mediated factors conferring diffuse and localized adherence of enteropathogenic Escherichia coli , 1985, Infection and immunity.

[30]  E. Chen,et al.  Supercoil sequencing: a fast and simple method for sequencing plasmid DNA. , 1985, DNA.

[31]  S. Henikoff Unidirectional digestion with exonuclease III creates targeted breakpoints for DNA sequencing. , 1984, Gene.

[32]  J. Sambrook,et al.  Molecular Cloning: A Laboratory Manual , 2001 .

[33]  M. Levine,et al.  Attaching and effacing activities of rabbit and human enteropathogenic Escherichia coli in pig and rabbit intestines , 1983, Infection and immunity.

[34]  M. Levine,et al.  Plasmid‐Mediated Adhesion in Enteropathogenic Escherichia coli , 1983, Journal of pediatric gastroenterology and nutrition.

[35]  A. Pühler,et al.  A Broad Host Range Mobilization System for In Vivo Genetic Engineering: Transposon Mutagenesis in Gram Negative Bacteria , 1983, Bio/Technology.

[36]  Daniel S Waterman,et al.  ESCHERICHIA COLI STRAINS THAT CAUSE DIARRHŒA BUT DO NOT PRODUCE HEAT-LABILE OR HEAT-STABLE ENTEROTOXINS AND ARE NON-INVASIVE , 1978, The Lancet.

[37]  J. Bray Isolation of antigenically homogeneous strains of Bact. coli neapolitanum from summer diarrhœa of infants , 1945 .