Your search keyword '"MCCARTHY, DOUGLAS"' showing total 3 results

1. Acquisition of a multifunctional [IgA.sup.+] plasma cell phenotype in the gut

Author

Fritz, Jorg H., Rojas, Olga Lucia, Simard, Nathalie, McCarthy, Douglas D., Hapfelmeier, Siegfried, Rubino, Stephen, Robertson, Susan J., Larijani, Mani, Gosselin, Jean, Ivanov, Ivaylo I., Martin, Alberto, Casellas, Rafael, Philpott, Dana J., Girardin, Stephen E., McCoy, Kathy D., Macpherson, Andrew J., Paige, Christopher J., and Gommerman, Jennifer L.

Subjects

Gene expression -- Research, Microbiota (Symbiotic organisms) -- Physiological aspects -- Research, Tumor necrosis factor -- Physiological aspects -- Research, Plasma cells -- Physiological aspects -- Research, Environmental issues, Science and technology, Zoology and wildlife conservation

Abstract

The largest mucosal surface in the body is in the gastrointestinal tract, a location that is heavily colonized by microbes that are normally harmless. A key mechanism required for maintaining a homeostatic balance between this microbial burden and the lymphocytes that densely populate the gastrointestinal tract is the production and transepithelial transport of poly-reactive IgA (ref. 1). Within the mucosal tissues, B cells respond to cytokines, sometimes in the absence of T-cell help, undergo class switch recombination of their immunoglobulin receptor to [IgA.sup.+], and differentiate to become plasma cells (2). However, [IgA.sup.+]-secreting plasma cells probably have additional attributes that are needed for coping with the tremendous bacterial load in the gastrointestinal tract. Here we report that mouse [IgA.sup.+] plasma cells also produce the antimicrobial mediators tumour-necrosis factor-α (TNF-α) and inducible nitric oxide synthase (iNOS), and express many molecules that are commonly associated with monocyte/granulocytic cell types. The development of iNOS-producing [IgA.sup.+] plasma cells can be recapitulated in vitro in the presence of gut stroma, and the acquisition of this multifunctional phenotype in vivo and in vitro relies on microbial co-stimulation. Deletion of TNF-α and iNOS in B-lineage cells resulted in a reduction in [IgA.sup.+] production, altered diversification of the gut microbiota and poor clearance of a gut-tropic pathogen. These findings reveal a novel adaptation to maintaining homeostasis in the gut, and extend the repertoire of protective responses exhibited by some B-lineage cells., Most class switch recombination (CSR) to IgA+ takes place in the Peyer's patches and requires encounters between B cells and cytokine-secreting T cells within germinal centres. However, IgA+ CSR can [...]

Published

2012

2. Acquisition of a multifunctional IgA+ plasma cell phenotype in the gut

Author

Fritz, Jörg H., primary, Rojas, Olga Lucia, additional, Simard, Nathalie, additional, McCarthy, Douglas D., additional, Hapfelmeier, Siegfried, additional, Rubino, Stephen, additional, Robertson, Susan J., additional, Larijani, Mani, additional, Gosselin, Jean, additional, Ivanov, Ivaylo I., additional, Martin, Alberto, additional, Casellas, Rafael, additional, Philpott, Dana J., additional, Girardin, Stephen E., additional, McCoy, Kathy D., additional, Macpherson, Andrew J., additional, Paige, Christopher J., additional, and Gommerman, Jennifer L., additional

Published

2011

3. Acquisition of a multifunctional IgA+ plasma cell phenotype in the gut.

Author

Fritz, Jörg H., Rojas, Olga Lucia, Simard, Nathalie, McCarthy, Douglas D., Hapfelmeier, Siegfried, Rubino, Stephen, Robertson, Susan J., Larijani, Mani, Gosselin, Jean, Ivanov, Ivaylo I., Martin, Alberto, Casellas, Rafael, Philpott, Dana J., Girardin, Stephen E., McCoy, Kathy D., Macpherson, Andrew J., Paige, Christopher J., and Gommerman, Jennifer L.

Subjects

PLASMA cells, GASTROINTESTINAL system, PHENOTYPES, IMMUNOGLOBULIN receptors, BACTERIA, CYTOKINES

Abstract

The largest mucosal surface in the body is in the gastrointestinal tract, a location that is heavily colonized by microbes that are normally harmless. A key mechanism required for maintaining a homeostatic balance between this microbial burden and the lymphocytes that densely populate the gastrointestinal tract is the production and transepithelial transport of poly-reactive IgA (ref. 1). Within the mucosal tissues, B cells respond to cytokines, sometimes in the absence of T-cell help, undergo class switch recombination of their immunoglobulin receptor to IgA, and differentiate to become plasma cells. However, IgA-secreting plasma cells probably have additional attributes that are needed for coping with the tremendous bacterial load in the gastrointestinal tract. Here we report that mouse IgA+ plasma cells also produce the antimicrobial mediators tumour-necrosis factor-? (TNF-?) and inducible nitric oxide synthase (iNOS), and express many molecules that are commonly associated with monocyte/granulocytic cell types. The development of iNOS-producing IgA+ plasma cells can be recapitulated in vitro in the presence of gut stroma, and the acquisition of this multifunctional phenotype in vivo and in vitro relies on microbial co-stimulation. Deletion of TNF-? and iNOS in B-lineage cells resulted in a reduction in IgA production, altered diversification of the gut microbiota and poor clearance of a gut-tropic pathogen. These findings reveal a novel adaptation to maintaining homeostasis in the gut, and extend the repertoire of protective responses exhibited by some B-lineage cells. [ABSTRACT FROM AUTHOR]

Published

2012