Philip P. Ahern scite author profile

Summary Paragraph Dramatic changes in socioeconomic status, cultural traditions, population growth, and agriculture are affecting diets worldwide. Understanding how our diet and nutritional status influence the composition and dynamic operations of our gut microbial communities, and the innate and adaptive arms of our immune system, represents an area of scientific need, opportunity and challenge. The insights gleaned should help address a number of pressing global health problems.

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Innate lymphoid cells drive interleukin-23-dependent innate intestinal pathology

Buonocore

Ahern

Uhlig

et al. 2010

Nature

993

1,026

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The key role of IL-23 in the pathogenesis of autoimmune and chronic inflammatory disorders is supported by the identification of IL-23R susceptibility alleles associated with IBD, psoriasis and ankylosing spondylitis. IL-23 driven inflammation has primarily been linked to the actions of Th17 cells1. Somewhat overlooked, IL-23 also has inflammatory effects on innate immune cells2 and can drive T cell- independent colitis. However the downstream cellular and molecular pathways involved in this innate intestinal inflammatory response are poorly characterized. Here we show that bacteria-driven innate colitis is associated with increased IL-17 and IFN-γ production in the colon. Stimulation of colonic leukocytes with IL-23 induced IL-17 and IFN-γ production exclusively by innate lymphoid cells expressing Thy1, SCA-1, RORγt and IL-23R and these cells markedly accumulated in the inflamed colon. Importantly, IL-23 responsive innate intestinal cells are also a feature of T-cell dependent models of colitis. The transcription factor RORγt, which controls IL-23R expression, plays a functional role as Ror−/−Rag−/− mice failed to develop innate colitis. Lastly, depletion of Thy1+ innate lymphoid cells completely abrogated acute and chronic innate colitis. These results identify a novel IL-23 responsive innate lymphoid population that mediates intestinal immune pathology and may therefore represent a target in IBD.

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Interleukin-23 drives innate and T cell–mediated intestinal inflammation

et al. 2006

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Inflammatory bowel disease (IBD) is a chronic inflammatory disorder of the gastrointestinal tract involving aberrant activation of innate and adaptive immune responses. We have used two complementary models of IBD to examine the roles of interleukin (IL)-12 family cytokines in bacterially induced intestinal inflammation. Our results clearly show that IL-23, but not IL-12, is essential for the induction of chronic intestinal inflammation mediated by innate or adaptive immune mechanisms. Depletion of IL-23 was associated with decreased proinflammatory responses in the intestine but had little impact on systemic T cell inflammatory responses. These results newly identify IL-23 as a driver of innate immune pathology in the intestine and suggest that selective targeting of IL-23 represents an attractive therapeutic approach in human IBD.

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Lactobacillus reuteri induces gut intraepithelial CD4 ⁺ CD8αα ⁺ T cells

Cervantes-Barragán

Chai

Tianero

et al. 2017

Science

639

366

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The small intestine contains CD4+CD8αα+ double-positive intraepithelial T lymphocytes (DP IELs), which originate from intestinal CD4+ T cells through downregulation of the transcription factor ThpoK and have regulatory functions. DP IELs are absent in germ-free mice, suggesting that their differentiation depends on microbial factors. We found that DP IEL numbers in mice varied in different vivaria, correlating with the presence of Lactobacillus reuteri. This species induced DP IELs in germ-free mice and conventionally-raised mice lacking these cells. L. reuteri did not shape DP-IEL-TCR repertoire, but generated indole derivatives of tryptophan that activated the aryl-hydrocarbon receptor in CD4+ T cells, allowing ThPOK downregulation and differentiation into DP IELs. Thus, L. reuteri together with a tryptophan-rich diet can reprogram intraepithelial CD4+ T cells into immunoregulatory T cells.

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Interleukin-23 Restrains Regulatory T Cell Activity to Drive T Cell-Dependent Colitis

et al. 2008

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SummaryInterleukin-23 (IL-23) is an inflammatory cytokine that plays a key role in the pathogenesis of several autoimmune and inflammatory diseases. It orchestrates innate and T cell-mediated inflammatory pathways and can promote T helper 17 (Th17) cell responses. Utilizing a T cell transfer model, we showed that IL-23-dependent colitis did not require IL-17 secretion by T cells. Furthermore, IL-23-independent intestinal inflammation could develop if immunosuppressive pathways were reduced. The frequency of naive T cell-derived Foxp3+ cells in the colon increased in the absence of IL-23, indicating a role for IL-23 in controlling regulatory T cell induction. Foxp3-deficient T cells induced colitis when transferred into recipients lacking IL-23p19, showing that IL-23 was not essential for intestinal inflammation in the absence of Foxp3. Taken together, our data indicate that overriding immunosuppressive pathways is an important function of IL-23 in the intestine and could influence not only Th17 cell activity but also other types of immune responses.

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Philip P. Ahern

Human nutrition, the gut microbiome and the immune system

Innate lymphoid cells drive interleukin-23-dependent innate intestinal pathology

Interleukin-23 drives innate and T cell–mediated intestinal inflammation

Lactobacillus reuteri induces gut intraepithelial CD4 ⁺ CD8αα ⁺ T cells

Interleukin-23 Restrains Regulatory T Cell Activity to Drive T Cell-Dependent Colitis

Contact Info

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About

Philip P. Ahern

Human nutrition, the gut microbiome and the immune system

Innate lymphoid cells drive interleukin-23-dependent innate intestinal pathology

Interleukin-23 drives innate and T cell–mediated intestinal inflammation

Lactobacillus reuteri induces gut intraepithelial CD4 + CD8αα + T cells

Interleukin-23 Restrains Regulatory T Cell Activity to Drive T Cell-Dependent Colitis

Contact Info

Product

Resources

About

Lactobacillus reuteri induces gut intraepithelial CD4 ⁺ CD8αα ⁺ T cells