Shiga toxin-producing Escherichia coli O104:H4: A new challenge for microbiology

Muniesa, M.; Hammerl, J. A.; Hertwig, S.; Appel, B.; Brüssow, H.

Shiga toxin-producing Escherichia coli O104:H4: A new challenge for microbiology

2012

Muniesa, M. | Hammerl, J. A. | Hertwig, S. | Appel, B. | Brüssow, H.

In 2011, Germany experienced the largest outbreak with a Shiga toxin-producing Escherichia coli (STEC) strain ever recorded. A series of environmental and trace-back and trace-forward investigations linked sprout consumption with the disease, but fecaloral transmission was also documented. The genome sequences of the pathogen revealed a clonal outbreak with enteroaggregative E. coli (EAEC). Some EAEC virulence factors are carried on the virulence plasmid pAA. From an unknown source, the epidemic strains acquired a lambdoid prophage carrying the gene for the Shiga toxin. The resulting strains therefore possess two different mobile elements, a phage and a plasmid, contributing essential virulence genes. Shiga toxin is released by decaying bacteria in the gut, migrates through the intestinal barrier, and is transported via the blood to target organs, like the kidney. In a mouse model, probiotic bifidobacteria interfered with transport of the toxin through the gut mucosa. Researchers explored bacteriophages, bacteriocins, and low-molecular-weight inhibitors against STEC. Randomized controlled clinical trials of enterohemorrhagic E. coli (EHEC)-associated hemolytic uremic syndrome (HUS) patients found none of the interventions superior to supportive therapy alone. Antibodies against one subtype of Shiga toxin protected pigs against fatal neurological infection, while treatment with a toxin receptor decoy showed no effect in a clinical trial. Likewise, a monoclonal antibody directed against a complement protein led to mixed results. Plasma exchange and IgG immunoadsoprtion ameliorated the condition in small uncontrolled trials. The epidemic O104:H4 strains were resistant to all penicillins and cephalosporins but susceptible to carbapenems, which were recommended for treatment. -® 2012, American Society for Microbiology

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acids agents analyse analysis animal animal animals antibiotics antibodies antibodies antitoxin antitoxins apoptosis assessment association bacteria bacteriocins bacteriophages beef blood bovine cattle cells children classification collection contamination denmark detection diarrhea diarrhoea disease outbreaks dna emergence enterotoxin escherichia coli evaluation experiments food food poisoning france gastroenteritis gene gene expression genes genetics germany gram-negative bacteria growth humans identification immunotherapy in vitro infection infectivity inhibition isolation laboratories lactobacillus lesions ligand management methodology methods mice microbiology mode of action model monoclonal antibodies origin pathogen pathogenesis pathogenicity pathology patient pcr phage plasmid probiotics production protease protein research samples science state strains stress suidae surface surveillance technology therapy toxin toxins virulence wastewater

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Publié dans

Applied and Environmental Microbiology | Appl. Environ. Microbiol.; Appl. Envir. Microbiol.; AEM

Volume 78 Numéro 12 Pagination 4065 - 4073

Editeur American Society for Microbiology (ASM) ; PubMed Central

ISSN 0099-2240 | 1098-5336

D'autres materias

Stx2; Treatment outcome; Disease models; Surfaces; Transmission; Agent; E.coli; Bacteriophage; Community; Shiga-toxigenic escherichia coli; Neurological infections; Virulence factor; Shiga toxins; Virulence gene; Toxin receptors; Fecal samples; Bacterial; Adult; Studies; Reference; Randomized controlled trial (topic); Mouse; Quantification; Illness; Shiga toxin 2; Treatment; Randomized controlled trials as topic; Target organs; Target; Escherichia-coli; Genome sequence; Toxic materials; Isolation and purification; Induce; Acid; Trial; Carbapenems; Mouse models; Gene-expression; Mechanisms; Virulence plasmids; Volunteers; Acute; Outbreak; Clinical trial; Typing; Virulence factors; Aggregative adherence; Neurology; Study; Strain; Patient treatment; Plasma; Single; Real-time; Response; Disease model; Escherichia coli infections; Promote; Colonization; Tomato; Cluster analysis; Short survey; Molecular epidemiology; Validation; Coli; Genomic; 2 gene; Vitro; Coliform bacterium; Genome sequences; Antiinfective agent; Escherichia coli o157; Determination; In-vitro; Bacterium antibody; Disease; Review; Epidemic; Bifidobacteria; Enterohemorrhagic escherichia coli; Antibody; Genome; Escherichia coli o26; Prior; In-vivo; Soybean; Cell; Database; Prophages; In vivo; Characterization; Effect; Human; Challenge; Inhibitor; Mobile elements; Hemorrhagic colitis; Molecular typing; Sewage treatment plants; Antibiotic; Paa; Targets; Variability; Mechanism; Anti-bacterial agents; Sequencing; Disease spread; Region; Secondary; Origins; Sequence; Shiga toxin producing escherichia coli; Release; Rabbit; Diversity; Escherichia coli infection; Quantitative; Potential; Peyer's patches; Method; Enteroaggregative; Enterohemorrhagic; Long-term; Influenza; Control; Syndrome; Vivo; Medical applications; Shiga toxin; Low molecular weight; Pig; Organic-acids; Approach; 37; Enteroaggregative escherichia coli; Technologies; Characterisation; Expression; Adherence; Induction; Enteropathogenic; Investigation; O157; Population outbreak; Drug products; Foodborne diseases

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anglais

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Journal Article; Text

Sur AGRIS depuis: 2025-02-03

Date de modification: 2026-02-03

Format: MODS

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Shiga toxin-producing Escherichia coli O104:H4: A new challenge for microbiology

2012

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