<i>Escherichia coli</i>
            induces DNA damage in vivo and triggers genomic instability in mammalian cells

Cuevas-Ramos, Gabriel; Petit, Claude; Marcq, Ingrid; Boury, Michèle; Oswald, Éric; Nougayrède, Jean-Philippe

doi:10.1073/pnas.1001261107

Cited by 673 publications

(655 citation statements)

References 36 publications

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“…Mucosa-associated pks+ E. coli were found in a significantly high percentage of inflammatory bowel disease and colorectal cancer patients (46). The structure of colibactin is yet to be determined but its biological activity has been characterized (41,47,48). Colibactin damages DNA, inducing chromosome instability and mutations in host cells and may therefore contribute to colon cancer.…”

Section: Discussionmentioning

confidence: 99%

Enterotoxicity of a nonribosomal peptide causes antibiotic-associated colitis

Schneditz

Rentner

Roier

et al. 2014

Proc. Natl. Acad. Sci. U.S.A.

102

181

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Antibiotic therapy disrupts the human intestinal microbiota. In some patients rapid overgrowth of the enteric bacterium Klebsiella oxytoca results in antibiotic-associated hemorrhagic colitis (AAHC). We isolated and identified a toxin produced by K. oxytoca as the pyrrolobenzodiazepine tilivalline and demonstrated its causative action in the pathogenesis of colitis in an animal model. Tilivalline induced apoptosis in cultured human cells in vitro and disrupted epithelial barrier function, consistent with the mucosal damage associated with colitis observed in human AAHC and the corresponding animal model. Our findings reveal the presence of pyrrolobenzodiazepines in the intestinal microbiota and provide a mechanism for colitis caused by a resident pathobiont. The data link pyrrolobenzodiazepines to human disease and identify tilivalline as a target for diagnosis and neutralizing strategies in prevention and treatment of colitis.bacteria | enteric microbiota | cytotoxin

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Section: Discussionmentioning

confidence: 99%

Enterotoxicity of a nonribosomal peptide causes antibiotic-associated colitis

Schneditz

Rentner

Roier

et al. 2014

Proc. Natl. Acad. Sci. U.S.A.

102

181

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“…Producers of genotoxins, such as cytolethal distending toxins or colibactin, cause direct DNA injury, inducing genomic instability and ultimately cell cycle arrest and cell death. 7,[35][36][37] Other bacteria, such as C. trachomatis, 19 Pseudomonas aeruginosa, 38 H. pylori, 12 N. gonorrhoeae 39 , and Shigella flexneri, 40 induce the production of reactive oxygen species (ROS) that promote oxidative DNA damage, thereby increasing γH2A.X levels and impairing host DNA repair mechanisms. To our knowledge, Lm does not express toxins that can directly injure host DNA.…”

Section: Discussionmentioning

confidence: 99%

Listeria monocytogenesinduces host DNA damage and delays the host cell cycle to promote infection

et al. 2014

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“…Chk1 and Chk2 subsequently phosphorylate Cdc25 phosphatase, thereby inactivating this enzyme and inducing cell cycle arrest at the G2/M or G1/S transition. DSBs are observed in enterocytes of the colon mucosa of mice infected with E. coli pks+ [20]. At low multiplicity of infection (MOI), cells repair DNA and resume cell division, but massive cell death is observed in cells deficient in the NHEJ repair pathway [20].…”

Section: Escherichia Coli Genotoxin Colibactinmentioning

confidence: 99%

“…DSBs are observed in enterocytes of the colon mucosa of mice infected with E. coli pks+ [20]. At low multiplicity of infection (MOI), cells repair DNA and resume cell division, but massive cell death is observed in cells deficient in the NHEJ repair pathway [20]. In addition, some cells maintain γH2AX foci, like scars of infection, and chromosomal aberrations.…”

Section: Escherichia Coli Genotoxin Colibactinmentioning

confidence: 99%

“…Infection can also promote aneuploidy (gain or loss of chromosomes) or tetraploidy (8n cells) as a consequence of division anomalies. Moreover, an increase in mutation frequency is observed and cells acquire an enhanced capacity to grow in semi-liquid medium, as an early sign of cell transformation [20]. Under these conditions, it is likely that the multiple lesions induced by colibactin accumulate with time, perhaps contributing to the cell transformation process, a critical step before cancer onset.…”

Section: Escherichia Coli Genotoxin Colibactinmentioning

confidence: 99%

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When our genome is targeted by pathogenic bacteria

Lemercier

2015

Cell. Mol. Life Sci.

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Eukaryotic cells repair thousands of lesions arising in the genome at each cell cycle. The most hazardous damage is likely DNA doublestrand breaks (DSB) that cleave the double helix backbone. DSBs occur naturally during T-cell receptor and immunoglobulin gene recombination in lymphocytes. DSBs can also arise as a consequence of exogenous stresses (e.g. ionizing irradiation, chemotherapeutic drugs, viruses) or oxidative processes. An increasing number of studies have reported that infection with pathogenic bacteria also alters the host genome, producing DSB and other modifications on DNA. This review focuses on recent data on bacteria-induced DNA damage and the known strategies used by these pathogens to maintain a physiological niche in the host. Even after DNA repair in infected cells, "scars" often remain on chromosomes and might generate genomic instability at the next cell division. Chronic inflammation in tissue, combined with infection and DNA damage, can give rise to genomic instability and eventually cancer. A functional link between the DNA damage response and the innate immune response has been recently established. Pathogenic bacteria also highjack the host cell cycle, often acting on the stability of the master regulator p53, or dampen the DNA damage response to support bacterial replication in an appropriate reservoir. Except in a few cases, the molecular mechanisms responsible for DNA lesions are poorly understood, although ROS release during infection is a serious candidate for generating DNA breaks. Thus, chronic or repetitive infections with genotoxic bacteria represent a common source of DNA lesions that compromise host genome integrity.

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Escherichia coli induces DNA damage in vivo and triggers genomic instability in mammalian cells

Cited by 673 publications

References 36 publications

Enterotoxicity of a nonribosomal peptide causes antibiotic-associated colitis

Enterotoxicity of a nonribosomal peptide causes antibiotic-associated colitis

Listeria monocytogenesinduces host DNA damage and delays the host cell cycle to promote infection

When our genome is targeted by pathogenic bacteria

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