Stephen Rubino scite author profile

The etiology of colorectal cancer (CRC) has been linked to deficiencies in mismatch repair and adenomatous polyposis coli (APC) proteins, diet, inflammatory processes, and gut microbiota. However, the mechanism through which the microbiota synergizes with these etiologic factors to promote CRC is not clear. We report that altering the microbiota composition reduces CRC in APC(Min/+)MSH2(-/-) mice, and that a diet reduced in carbohydrates phenocopies this effect. Gut microbes did not induce CRC in these mice through an inflammatory response or the production of DNA mutagens but rather by providing carbohydrate-derived metabolites such as butyrate that fuel hyperproliferation of MSH2(-/-) colon epithelial cells. Further, we provide evidence that the mismatch repair pathway has a role in regulating β-catenin activity and modulating the differentiation of transit-amplifying cells in the colon. These data thereby provide an explanation for the interaction between microbiota, diet, and mismatch repair deficiency in CRC induction. PAPERCLIP:

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Identification of an innate T helper type 17 response to intestinal bacterial pathogens

Geddes

Rubino

Magalhães

et al. 2011

Nat Med

215

205

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Interleukin 17 (IL-17) is a central cytokine implicated in inflammation and antimicrobial defense. After infection, both innate and adaptive IL-17 responses have been reported, but the type of cells involved in innate IL-17 induction, as well as their contribution to in vivo responses, are poorly understood. Here we found that Citrobacter and Salmonella infection triggered early IL-17 production, which was crucial for host defense and was mediated by CD4(+) T helper cells. Enteric innate T helper type 17 (iT(H)17) responses occurred principally in the cecum, were dependent on the Nod-like receptors Nod1 and Nod2, required IL-6 induction and were associated with a decrease in mucosal CD103(+) dendritic cells. Moreover, imprinting by the intestinal microbiota was fully required for the generation of iT(H)17 responses. Together, these results identify the Nod-iT(H)17 axis as a central element in controlling enteric pathogens, which may implicate Nod-driven iT(H)17 responses in the development of inflammatory bowel diseases.

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Combination of Mass Cytometry and Imaging Analysis Reveals Origin, Location, and Functional Repopulation of Liver Myeloid Cells in Mice

et al. 2016

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

Fritz

Rojas

Simard

et al. 2011

Nature

170

146

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The largest mucosal surface in the body is in the gastrointestinal (GI) tract, a location that is heavily colonized by normally harmless microbes. A key mechanism required for maintaining a homeostatic balance between this microbial burden and the lymphocytes that densely populate the GI tract is the production and trans-epithelial transport of poly-reactive IgA1. Within the mucosal tissues, B cells respond to cytokines, sometimes in the absence of T cell help, undergo class switch recombination (CSR) of their Immunoglobulin (Ig) receptor to IgA, and differentiate to become plasma cells (PC)2. However, IgA-secreting PC likely have additional attributes that are needed for coping with the tremendous bacterial load in the GI tract. Here we report that IgA+ PC also produce the anti-microbial mediators TNFα and iNOS, and express many molecules that are commonly associated with monocyte/granulocytic cell types. The development of iNOS-producing IgA+ PC can be recapitulated in vitro in the presence of gut stroma, and the acquisition of this multi-functional phenotype in vivo and in vitro relies on microbial co-stimulation. Deletion of TNFα 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.

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Stephen Rubino

Gut Microbial Metabolism Drives Transformation of Msh2-Deficient Colon Epithelial Cells

Identification of an innate T helper type 17 response to intestinal bacterial pathogens

Combination of Mass Cytometry and Imaging Analysis Reveals Origin, Location, and Functional Repopulation of Liver Myeloid Cells in Mice

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

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