In vitro model of the glial scar

Foxp3+ regulatory T cells are abundant in the intestine where they prevent dysregulated inflammatory responses to self and environmental stimuli. It is now appreciated that Treg cells acquire tissue-specific adaptations that facilitate their survival and function1; however, key host factors controlling the Treg response in the intestine are poorly understood. IL-1 family member IL-33 is constitutively expressed in epithelial cells at barrier sites2 where it functions as an endogenous danger signal or alarmin following tissue damage3. Recent studies in humans have described high levels of IL-33 in inflamed lesions of inflammatory bowel disease (IBD) patients4-7 suggesting a role for this cytokine in the pathogenesis of IBD. In the intestine, both protective and pathologic roles for IL-33 have been described in murine models of acute colitis8-11 but its contribution to chronic inflammation remains ill defined. Here we show that the IL-33 receptor ST2 is preferentially expressed on colonic Treg (cTreg) cells, where it promotes Treg function and adaptation to the inflammatory environment. IL-33 signaling into T cells stimulates Treg responses in several ways. Firstly, it enhances transforming growth factor-β1 (TGF-β1) mediated differentiation of Treg cells and secondly, it provides a necessary signal for Treg accumulation and maintenance in inflamed tissues. Strikingly, IL-23, a key pro-inflammatory cytokine in the pathogenesis of IBD, restrained Treg responses through inhibition of IL-33 responsiveness. These results demonstrate a hitherto unrecognized link between an endogenous mediator of tissue damage and a major anti-inflammatory pathway, and suggest that the balance between IL-33 and IL-23 may be a key controller of intestinal immune responses.

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IL-1β mediates chronic intestinal inflammation by promoting the accumulation of IL-17A secreting innate lymphoid cells and CD4+ Th17 cells

Coccia

et al. 2012

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Feedback control of AHR signalling regulates intestinal immunity

Schiering

Wincent²,

Metidji

et al. 2017

Nature

398

388

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The aryl hydrocarbon receptor (AHR) recognises xenobiotics as well as natural compounds such as tryptophan metabolites, dietary components and microbiota-derived factors1–4 and is important for maintenance of homeostasis at mucosal surfaces. AHR activation induces cytochrome P4501 (CYP1) enzymes, which oxygenate AHR ligands, leading to their metabolic clearance and detoxification5. Thus, CYP1 enzymes appear to play an important feedback role that curtails the duration of AHR signalling6, but it remains elusive whether they also regulate AHR ligand availability in vivo. Here we show that dysregulated expression of Cyp1a1 depletes the reservoir of natural AHR ligands, generating a quasi AHR-deficient state. Constitutive expression of Cyp1a1 throughout the body or restricted specifically to intestinal epithelial cells (IECs) resulted in loss of AHR-dependent type 3 innate lymphoid cells (ILC3) and T helper 17 (Th17) cells and increased susceptibility to enteric infection. The deleterious effects of excessive AHR ligand degradation on intestinal immune functions could be counter-balanced by increasing the intake of AHR ligands in the diet. Thus, our data indicate that IECs serve as gatekeepers for the supply of AHR ligands to the host and emphasise the importance of feedback control in modulating AHR pathway activation.

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Interleukin-23 Drives Intestinal Inflammation through Direct Activity on T Cells

et al. 2010

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SummaryMutations in the IL23R gene are linked to inflammatory bowel disease susceptibility. Experimental models have shown that interleukin-23 (IL-23) orchestrates innate and T cell-dependent colitis; however, the cell populations it acts on to induce intestinal immune pathology are unknown. Here, using Il23r−/− T cells, we demonstrated that T cell reactivity to IL-23 was critical for development of intestinal pathology, but not for systemic inflammation. Through direct signaling into T cells, IL-23 drove intestinal T cell proliferation, promoted intestinal Th17 cell accumulation, and enhanced the emergence of an IL-17A+IFN-γ+ population of T cells. Furthermore, IL-23R signaling in intestinal T cells suppressed the differentiation of Foxp3+ cells and T cell IL-10 production. Although Il23r−/− T cells displayed unimpaired Th1 cell differentiation, these cells showed impaired proliferation and failed to accumulate in the intestine. Together, these results highlight the multiple functions of IL-23 signaling in T cells that contribute to its colitogenic activity.

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The Environmental Sensor AHR Protects from Inflammatory Damage by Maintaining Intestinal Stem Cell Homeostasis and Barrier Integrity

et al. 2018

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SummaryThe epithelium and immune compartment in the intestine are constantly exposed to a fluctuating external environment. Defective communication between these compartments at this barrier surface underlies susceptibility to infections and chronic inflammation. Environmental factors play a significant, but mechanistically poorly understood, role in intestinal homeostasis. We found that regeneration of intestinal epithelial cells (IECs) upon injury through infection or chemical insults was profoundly influenced by the environmental sensor aryl hydrocarbon receptor (AHR). IEC-specific deletion of Ahr resulted in failure to control C. rodentium infection due to unrestricted intestinal stem cell (ISC) proliferation and impaired differentiation, culminating in malignant transformation. AHR activation by dietary ligands restored barrier homeostasis, protected the stem cell niche, and prevented tumorigenesis via transcriptional regulation of of Rnf43 and Znrf3, E3 ubiquitin ligases that inhibit Wnt-β-catenin signaling and restrict ISC proliferation. Thus, activation of the AHR pathway in IECs guards the stem cell niche to maintain intestinal barrier integrity.

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Dysregulated Hematopoietic Stem and Progenitor Cell Activity Promotes Interleukin-23-Driven Chronic Intestinal Inflammation

et al. 2012

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SummaryIn interleukin-23 (IL-23)-dependent colitis, there is excessive accumulation of short-lived neutrophils and inflammatory monocytes in the intestine. It is unknown whether this reflects changes in mature cell populations or whether the IL-23-driven colitogenic T cell program regulates upstream hematopoietic stem and progenitor cells (HSPC). Here we have shown dysregulation of hematopoiesis in colitis mediated by inflammatory cytokines. First, there was an interferon-gamma-dependent accumulation of proliferating hematopoietic stem cells in the bone marrow and spleen. Second, there was a strong skew toward granulocyte-monocyte progenitor (GMP) production at the expense of erythroid and lymphoid progenitors. Extramedullary hematopoiesis was also evident, and granulocyte macrophage-colony stimulating factor (GM-CSF) blockade reduced the accumulation of splenic and colonic GMPs, resulting in amelioration of colitis. Importantly, transfer of GMPs exacerbated colitis. These data identify HSPCs as a major target of the IL-23-driven inflammatory axis suggesting therapeutic strategies for the treatment of inflammatory bowel disease.

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CD4⁺ T‐cell subsets in intestinal inflammation

Shale

Schiering

Powrie

2013

Immunological Reviews

185

184

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Intestinal CD4+ T cells are essential mediators of immune homeostasis and inflammation. Multiple subsets of CD4+ T cells have been described in the intestine, which represents an important site for the generation and regulation of cells involved in immune responses both within and outside of the gastrointestinal tract. Recent advances have furthered our understanding of the biology of such cells in the intestine. Appreciation of the functional roles for effector and regulatory populations in health and disease has revealed potential translational targets for the treatment of intestinal diseases, including inflammatory bowel disease. Furthermore, the role of dietary and microbiota-derived factors in shaping the intestinal CD4+ T-cell compartment is becoming increasingly understood. Here, we review recent advances in understanding the multifaceted roles of CD4+ T cells in intestinal immunity.

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Granulocyte Macrophage Colony-Stimulating Factor-Activated Eosinophils Promote Interleukin-23 Driven Chronic Colitis

et al. 2015

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SummaryThe role of intestinal eosinophils in immune homeostasis is enigmatic and the molecular signals that drive them from protective to tissue damaging are unknown. Most commonly associated with Th2 cell-mediated diseases, we describe a role for eosinophils as crucial effectors of the interleukin-23 (IL-23)-granulocyte macrophage colony-stimulating factor (GM-CSF) axis in colitis. Chronic intestinal inflammation was characterized by increased bone marrow eosinopoiesis and accumulation of activated intestinal eosinophils. IL-5 blockade or eosinophil depletion ameliorated colitis, implicating eosinophils in disease pathogenesis. GM-CSF was a potent activator of eosinophil effector functions and intestinal accumulation, and GM-CSF blockade inhibited chronic colitis. By contrast neutrophil accumulation was GM-CSF independent and dispensable for colitis. In addition to TNF secretion, release of eosinophil peroxidase promoted colitis identifying direct tissue-toxic mechanisms. Thus, eosinophils are key perpetrators of chronic inflammation and tissue damage in IL-23-mediated immune diseases and it suggests the GM-CSF-eosinophil axis as an attractive therapeutic target.

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Chris Schiering

The alarmin IL-33 promotes regulatory T-cell function in the intestine

IL-1β mediates chronic intestinal inflammation by promoting the accumulation of IL-17A secreting innate lymphoid cells and CD4+ Th17 cells

Feedback control of AHR signalling regulates intestinal immunity

Interleukin-23 Drives Intestinal Inflammation through Direct Activity on T Cells

The Environmental Sensor AHR Protects from Inflammatory Damage by Maintaining Intestinal Stem Cell Homeostasis and Barrier Integrity

Dysregulated Hematopoietic Stem and Progenitor Cell Activity Promotes Interleukin-23-Driven Chronic Intestinal Inflammation

CD4⁺ T‐cell subsets in intestinal inflammation

Granulocyte Macrophage Colony-Stimulating Factor-Activated Eosinophils Promote Interleukin-23 Driven Chronic Colitis

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Chris Schiering

The alarmin IL-33 promotes regulatory T-cell function in the intestine

IL-1β mediates chronic intestinal inflammation by promoting the accumulation of IL-17A secreting innate lymphoid cells and CD4+ Th17 cells

Feedback control of AHR signalling regulates intestinal immunity

Interleukin-23 Drives Intestinal Inflammation through Direct Activity on T Cells

The Environmental Sensor AHR Protects from Inflammatory Damage by Maintaining Intestinal Stem Cell Homeostasis and Barrier Integrity

Dysregulated Hematopoietic Stem and Progenitor Cell Activity Promotes Interleukin-23-Driven Chronic Intestinal Inflammation

CD4+ T‐cell subsets in intestinal inflammation

Granulocyte Macrophage Colony-Stimulating Factor-Activated Eosinophils Promote Interleukin-23 Driven Chronic Colitis

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Product

Resources

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CD4⁺ T‐cell subsets in intestinal inflammation