Disruptionof Cell Polarity by Enteropathogenic
            <i>Escherichia coli</i>
            EnablesBasolateral Membrane Proteins To Migrate Apically and ToPotentiate PhysiologicalConsequences

Muza–Moons, Michelle M.; Koutsouris, Athanasia; Hecht, Gail

doi:10.1128/iai.71.12.7069-7078.2003

Cited by 95 publications

(91 citation statements)

References 37 publications

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“…17,18 During infection, β 1 -integrin relocalizes from the basolateral to the apical membrane to interact with bacterial intimin, which is essential for disruption of intestinal barrier function. 19 This study demonstrates that PEG decreases the amount of β 1 -integrin in intestinal epithelia and that pretreatment with PEG is sufficient to reduce attachment of C. rodentium. It has been demonstrated that high-molecular weight PEG inhibits the attachment of Pseudomonas to host cells by forming a physical barrier between the bacteria and host cells; 32 however, this type of PEG is not for systemic oral use.…”

Section: Discussionmentioning

confidence: 67%

“…We showed that low-molecular weight PEG downregulates β 1 -integrin, a host cell surface receptor critical for A/E pathogen attachment. [16][17][18][19] Pretreatment of colonic epithelia with PEG, concurrent presence of PEG during infection, or PEG treatment after the start of infection decreases the attachment of C. rodentium to colonic epithelia. We also presented evidence that PEG attenuates EGFR signaling and improves clinical signs of disease in mouse colon infected with C. rodentium.…”

Section: Discussionmentioning

confidence: 99%

“…18 These interactions with integrin generate signals in host cells 18 that disrupt the intestinal barrier. 18,19 Inhibiting interaction with integrin may be an efficient strategy for preventing enteric infections. infection in the mouse colon.…”

Section: Polyethylene Glycol Diminishes Pathological Effects Of Citromentioning

confidence: 99%

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Polyethylene glycol diminishes pathological effects ofCitrobacter rodentiuminfection by blocking bacterial attachment to the colonic epithelia

Joshi

Weber

et al. 2011

Gut Microbes

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Section: Discussionmentioning

confidence: 67%

Section: Discussionmentioning

confidence: 99%

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Polyethylene glycol diminishes pathological effects ofCitrobacter rodentiuminfection by blocking bacterial attachment to the colonic epithelia

Joshi

Weber

et al. 2011

Gut Microbes

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“…Upon EPEC infection, basolateral b 1 -integrin moves to the apical side of enterocytes where it can interact with intimin. 50 Although Tir remains essential for bacterial attachment, cytoskeletal rearrangement, and barrier defects, the interaction of b 1 -integrin with intimin further enhances the attachment of EPEC to IECs and is required for maximal decreases in TER. 50 It should be noted that certain gastrointestinal pathogens, such as the parasite Giardia lambia, are known to modulate epithelial permeability through the induction of apoptosis.…”

Section: Disruption Of Epithelial Barrier Structure and Functionmentioning

confidence: 99%

“…50 Although Tir remains essential for bacterial attachment, cytoskeletal rearrangement, and barrier defects, the interaction of b 1 -integrin with intimin further enhances the attachment of EPEC to IECs and is required for maximal decreases in TER. 50 It should be noted that certain gastrointestinal pathogens, such as the parasite Giardia lambia, are known to modulate epithelial permeability through the induction of apoptosis. 51,52 As mentioned before, EPEC induces apoptosis in infected IECs in a caspase-dependent manner.…”

Section: Disruption Of Epithelial Barrier Structure and Functionmentioning

confidence: 99%

The role of epithelial malfunction in the pathogenesis of enteropathogenic E. coli-induced diarrhea

Lapointe

O'Connor

Buret

2009

Laboratory Investigation

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The homeostatic balance of the gastrointestinal tract relies on a single layer of epithelial cells, which assumes both digestive and protective functions. Enteric pathogens, including enteropathogenic Escherichia coli (EPEC), have evolved numerous mechanisms to disrupt basic intestinal epithelial functions, promoting the development of gastrointestinal disorders. Despite its non-invasive nature, EPEC inflicts severe damage to the intestinal mucosa, including the dysregulation of water and solute transport and the disruption of epithelial barrier structure and function. Despite the high prevalence and morbidity of disease caused by EPEC infections, the etiology of its pathogenesis remains incompletely understood. This review integrates the newest findings on EPEC-epithelial interactions with established mechanisms of disease in an attempt to give a comprehensive understanding of the cellular processes whereby this common pathogen may cause diarrheal illness.

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Modulation of Intestinal Paracellular Transport by Bacterial Pathogens

Roxas

Viswanathan

2018

Comprehensive Physiology

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The passive and regulated movement of ions, solutes, and water via spaces between cells of the epithelial monolayer plays a critical role in the normal intestinal functioning. This paracellular pathway displays a high level of structural and functional specialization, with the membrane-spanning complexes of the tight junctions, adherens junctions, and desmosomes ensuring its integrity. Tight junction proteins, like occludin, tricellulin, and the claudin family isoforms, play prominent roles as barriers to unrestricted paracellular transport. The past decade has witnessed major advances in our understanding of the architecture and function of epithelial tight junctions. While it has been long appreciated that microbes, notably bacterial and viral pathogens, target and disrupt junctional complexes and alter paracellular permeability, the precise mechanisms remain to be defined. Notably, renewed efforts will be required to interpret the available data on pathogen-mediated barrier disruption in the context of the most recent findings on tight junction structure and function. While much of the focus has been on pathogen-induced dysregulation of junctional complexes, commensal microbiota and their products may influence paracellular permeability and contribute to the normal physiology of the gut. Finally, microbes and their products have become important tools in exploring host systems, including the junctional properties of epithelial cells. © 2018 American Physiological Society. Compr Physiol 8:823-842, 2018.

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Disruptionof Cell Polarity by Enteropathogenic Escherichia coli EnablesBasolateral Membrane Proteins To Migrate Apically and ToPotentiate PhysiologicalConsequences

Cited by 95 publications

References 37 publications

Polyethylene glycol diminishes pathological effects ofCitrobacter rodentiuminfection by blocking bacterial attachment to the colonic epithelia

Polyethylene glycol diminishes pathological effects ofCitrobacter rodentiuminfection by blocking bacterial attachment to the colonic epithelia

The role of epithelial malfunction in the pathogenesis of enteropathogenic E. coli-induced diarrhea

Modulation of Intestinal Paracellular Transport by Bacterial Pathogens

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