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      Enteric bacteria promote human and mouse norovirus infection of B cells

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          Abstract

          The cell tropism of human noroviruses and the development of an in vitro infection model remain elusive. Although susceptibility to individual human norovirus strains correlates with an individual's histo-blood group antigen (HBGA) profile, the biological basis of this restriction is unknown. We demonstrate that human and mouse noroviruses infected B cells in vitro and likely in vivo. Human norovirus infection of B cells required the presence of HBGA-expressing enteric bacteria. Furthermore, mouse norovirus replication was reduced in vivo when the intestinal microbiota was depleted by means of oral antibiotic administration. Thus, we have identified B cells as a cellular target of noroviruses and enteric bacteria as a stimulatory factor for norovirus infection, leading to the development of an in vitro infection model for human noroviruses. Copyright © 2014, American Association for the Advancement of Science.

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          Most cited references28

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          Recognition of commensal microflora by toll-like receptors is required for intestinal homeostasis.

          Seth Rakoff-Nahoum, Justin Paglino, Fatima Eslami-Varzaneh (2004)
          Toll-like receptors (TLRs) play a crucial role in host defense against microbial infection. The microbial ligands recognized by TLRs are not unique to pathogens, however, and are produced by both pathogenic and commensal microorganisms. It is thought that an inflammatory response to commensal bacteria is avoided due to sequestration of microflora by surface epithelia. Here, we show that commensal bacteria are recognized by TLRs under normal steady-state conditions, and this interaction plays a crucial role in the maintenance of intestinal epithelial homeostasis. Furthermore, we find that activation of TLRs by commensal microflora is critical for the protection against gut injury and associated mortality. These findings reveal a novel function of TLRs-control of intestinal epithelial homeostasis and protection from injury-and provide a new perspective on the evolution of host-microbial interactions.
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            Norovirus gastroenteritis.

            Roger I. Glass, Umesh D Parashar, Mary Estes (2009)
            Article 0 comments Cited 309 times – based on 0 reviews     Review now
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              Intestinal microbiota promote enteric virus replication and systemic pathogenesis.

              Sharon K. Kuss, Gavin Best, Chris Etheredge (2011)
              Intestinal bacteria aid host health and limit bacterial pathogen colonization. However, the influence of bacteria on enteric viruses is largely unknown. We depleted the intestinal microbiota of mice with antibiotics before inoculation with poliovirus, an enteric virus. Antibiotic-treated mice were less susceptible to poliovirus disease and supported minimal viral replication in the intestine. Exposure to bacteria or their N-acetylglucosamine-containing surface polysaccharides, including lipopolysaccharide and peptidoglycan, enhanced poliovirus infectivity. We found that poliovirus binds lipopolysaccharide, and exposure of poliovirus to bacteria enhanced host cell association and infection. The pathogenesis of reovirus, an unrelated enteric virus, also was more severe in the presence of intestinal microbes. These results suggest that antibiotic-mediated microbiota depletion diminishes enteric virus infection and that enteric viruses exploit intestinal microbes for replication and transmission.
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                Author and article information

                Journal
                Title: Science
                Abbreviated Title: Science
                Publisher: American Association for the Advancement of Science (AAAS)
                ISSN (Print): 0036-8075
                ISSN (Electronic): 1095-9203
                Publication date Created: November 06 2014
                Publication date Created: November 07 2014
                Publication date (Electronic): November 06 2014
                Publication date (Print): November 07 2014
                Volume: 346
                Issue: 6210
                Pages: 755-759
                Article
                DOI: 10.1126/science.1257147
                PMC ID: 4401463
                PubMed ID: 25378626
                SO-VID: fa4840dc-73d7-4173-8778-b6e71bab0b48
                Copyright © © 2014
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