Dissemination of invasive Salmonella via bacterial-induced extrusion of mucosal epithelia

Leigh A Knodler; Bruce A Vallance; Jean Celli; Seth Winfree; Bryan Hansen; Marinieve Montero; Olivia Steele-Mortimer

doi:10.1073/pnas.1006098107

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Dissemination of invasive Salmonella via bacterial-induced extrusion of mucosal epithelia

Journal article

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Dissemination of invasive Salmonella via bacterial-induced extrusion of mucosal epithelia

Leigh A Knodler, Bruce A Vallance, Jean Celli, Seth Winfree, Bryan Hansen, Marinieve Montero and Olivia Steele-Mortimer

Proceedings of the National Academy of Sciences - PNAS, Vol.107(41), pp.17733-17738

10/12/2010

DOI: https://doi.org/10.1073/pnas.1006098107

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https://hdl.handle.net/2376/102883

PMCID: PMC2955089

PMID: 20876119

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Abstract

Salmonella enterica

Gastric Mucosa - microbiology

Cell Death - physiology

Salmonella Infections - transmission

Gastric Mucosa - physiology

Humans

Fluorescent Antibody Technique

Cell Line, Tumor

Caspase 1 - metabolism

Gastric Mucosa - metabolism

Interleukin-18 - metabolism

Cytoplasm - microbiology

Salmonella enterica is an intracellular bacterial pathogen that resides and proliferates within a membrane-bound vacuole in epithelial cells of the gut and gallbladder. Although essential to disease, how Salmonella escapes from its intracellular niche and spreads to secondary cells within the same host, or to a new host, is not known. Here, we demonstrate that a subpopulation of Salmonella hyperreplicating in the cytosol of epithelial cells serves as a reservoir for dissemination. These bacteria are transcriptionally distinct from intravacuolar Salmonella. They are induced for the invasion-associated type III secretion system and possess flagella; hence, they are primed for invasion. Epithelial cells laden with these cytosolic bacteria are extruded out of the monolayer, releasing invasion-primed and -competent Salmonella into the lumen. This extrusion mechanism is morphologically similar to the process of cell shedding required for turnover of the intestinal epithelium. In contrast to the homeostatic mechanism, however, bacterial-induced extrusion is accompanied by an inflammatory cell death characterized by caspase-1 activation and the apical release of IL-18, an important cytokine regulator of gut inflammation. Although epithelial extrusion is obviously beneficial to Salmonella for completion of its life cycle, it also provides a mechanistic explanation for the mucosal inflammation that is triggered during Salmonella infection of the gastrointestinal and biliary tracts.

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Title: Dissemination of invasive Salmonella via bacterial-induced extrusion of mucosal epithelia
Creators: Leigh A Knodler - Laboratory of Intracellular Parasites and Research Technologies Branch, Microscopy Unit, Rocky Mountain Laboratories, National Institute of Allergy and Infectious Diseases, National Institutes of Health, Hamilton, MT 59840, USA. lknodler@niaid.nih.gov
Bruce A Vallance
Jean Celli
Seth Winfree
Bryan Hansen
Marinieve Montero
Olivia Steele-Mortimer
Publication Details: Proceedings of the National Academy of Sciences - PNAS, Vol.107(41), pp.17733-17738
Academic Unit: Paul G. Allen School for Global Animal Health
Publisher: United States
Grant note: Canadian Institutes of Health Research Intramural NIH HHS
Identifiers: 99900546553001842
Language: English
Resource Type: Journal article