Avian pathogenic, uropathogenic, and newborn meningitis-causing Escherichia coli : How closely related are they?

Abstract Avian pathogenic Escherichia coli (APEC), uropathogenic E. coli (UPEC), and newborn meningitis-causing E. coli (NMEC) establish infections in extraintestinal habitats (extraintestinal pathogenic E. coli ; ExPEC) of different hosts. As diversity, epidemiological sources, and evolutionary ori...

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Published in:International journal of medical microbiology 2007-06, Vol.297 (3), p.163-176
Main Authors: Ewers, Christa, Li, Ganwu, Wilking, Hendrik, Kieβling, Sabine, Alt, Katja, Antáo, Esther-Maria, Laturnus, Claudia, Diehl, Ines, Glodde, Susanne, Homeier, Timo, Böhnke, Ute, Steinrück, Hartmut, Philipp, Hans-C, Wieler, Lothar H
Format: Article
Language:English
Subjects:
Animals
APEC
Bird Diseases - microbiology
Birds
Colibacillosis
Disease Reservoirs - microbiology
ECOR
Escherichia coli
Escherichia coli - classification
Escherichia coli - genetics
Escherichia coli - pathogenicity
Escherichia coli Infections - microbiology
Escherichia coli Infections - veterinary
Escherichia coli Proteins - genetics
Genes, Bacterial
Humans
Infant, Newborn
Infectious Disease
Medical Education
Meningitis, Escherichia coli - microbiology
NMEC
Serotype
Serotyping
Species Specificity
UPEC
Urinary Tract Infections - microbiology
Virulence - genetics
Virulence-associated genes
Zoonosis
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Summary:Abstract Avian pathogenic Escherichia coli (APEC), uropathogenic E. coli (UPEC), and newborn meningitis-causing E. coli (NMEC) establish infections in extraintestinal habitats (extraintestinal pathogenic E. coli ; ExPEC) of different hosts. As diversity, epidemiological sources, and evolutionary origins of ExPEC are so far only partially defined, we screened a collection of 526 strains of medical and veterinary origin of various O-types for assignment to E. coli reference collection (ECOR) group and virulence gene patterns. Results of ECOR typing confirmed that human ExPEC strains mostly belong to groups B2, followed by group D. Although a considerable portion of APEC strains did also fell into ECOR group B2 (35.1%), a higher amount (46.1%) belonged to group A, which has previously been described to also harbour strains with a high pathogenic potential for humans. The number of virulence-associated genes of single strains ranged from 5 to 26 among 33 genes tested and high numbers were rather related to K1-positive and ECOR B2 strains than to a certain pathotype. With a few exceptions ( iha , afa/draB , sfa/foc , and hlyA ), which were rarely present in APEC strains, most chromosomally located genes were widely distributed among all ExPEC strains irrespective of host and pathotype. However, prevalence of invasion genes ( ibeA and gimB ) and K1 capsule-encoding gene neuC indicated a closer relationship between APEC and NMEC strains. Genes associated with ColV plasmids ( tsh , iss , and the episomal sit locus) were in general more prevalent in APEC than in UPEC and NMEC strains, indicating that APEC could be a source of ColV-located genes or complete plasmids for other ExPEC strains. Our data support the hypothesis that (a) poultry may be a vehicle or even a reservoir for human ExPEC strains, (b) APEC potentially serve as a reservoir of virulence-associated genes for UPEC and NMEC, (c) some ExPEC strains, although of different pathotypes, may share common ancestors, and (d) as a conclusion certain APEC subgroups have to be considered potential zoonotic agents. The finding of different evolutionary clusters within these three pathotypes implicates an independently and parallel evolution, which should be resolved in the future by thorough phylogenetic typing.
ISSN:1438-4221
1618-0607
DOI:10.1016/j.ijmm.2007.01.003