Stacey N. Harbour scite author profile

Th17 cells reactive to the enteric microbiota are central to the pathogenesis of certain types of inflammatory bowel disease. However, Th17 cells display substantial developmental plasticity, such that some progeny of Th17 cell precursors retain a predominantly IL-17A+ phenotype, whereas others extinguish IL-17 expression and acquire expression of IFN-γ, giving rise to “Th1-like” cells. It remains unclear what role these subsets play in inflammatory bowel disease. Using a Th17 transfer model of colitis, we found that IFN-γ–deficient Th17 cells retained an IL-17A+ phenotype and were unable to induce colitis in recipients. Development of disease required the transition of a subset of Th17 precursors to Th1-like cells and was contingent on the expression of both Stat4 and T-bet, but not the IL-12 or IFN-γ receptors. Moreover, Th17 cells could provide “help” for the development of pathogenic Th1 cells from naïve precursors. These results indicate that Th17 cells are potent mediators of colitis pathogenesis by dual mechanisms: by directly transitioning to Th1-like cells and by supporting the development of classic Th1 cells.

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IL-22–producing neutrophils contribute to antimicrobial defense and restitution of colonic epithelial integrity during colitis

Zindl

Lai

Lee

et al. 2013

Proc. Natl. Acad. Sci. U.S.A.

301

271

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IL-22 plays an important role in mucosal epithelial cell homeostasis. Using a dextran sodium sulfate-induced mouse model of acute colitis, we observed an IL-23-dependent up-regulation of IL-22 in the middle and distal colon at the onset of epithelial cell damage. This heightened IL-22 correlated with an influx of innate immune cells, suggesting an important role in colonic epithelial protection. Freshly isolated colon-infiltrating neutrophils produced IL-22 contingent upon IL-23 signaling, and IL-22 production was augmented by TNF-α. Importantly, the depletion of neutrophils resulted in diminished IL-22 levels in the colon, and the transfer of IL-22-competent neutrophils to Il22a-deficient mice protected the colonic epithelium from dextran sodium sulfate-induced damage. In addition, IL-22-producing neutrophils targeted colonic epithelial cells to up-regulate the antimicrobial peptides, RegIIIβ and S100A8. This study establishes a role for neutrophils in providing IL-22-dependent mucosal epithelial support that contributes to the resolution of colitis.interleukin-22 | intestinal inflammation | leukocytes

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Muc1 Mucin Limits Both Helicobacter pylori Colonization of the Murine Gastric Mucosa and Associated Gastritis

et al. 2007

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Insulin-Like Growth Factors Are Key Regulators of T Helper 17 Regulatory T Cell Balance in Autoimmunity

DiToro¹,

Harbour²,

Bando³

et al. 2020

Immunity

109

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Appropriate balance of T helper 17 (Th17) and regulatory T (Treg) cells maintains immune tolerance and host defense. Disruption of Th17-Treg cell balance is implicated in a number of immune-mediated diseases, many of which display dysregulation of the insulin-like growth factor (IGF) system. Here, we show that, among effector T cell subsets, Th17 and Treg cells selectively expressed multiple components of the IGF system. Signaling through IGF receptor (IGF1R) activated the protein kinase B-mammalian target of rapamycin (AKT-mTOR) pathway, increased aerobic glycolysis, favored Th17 cell differentiation over that of Treg cells, and promoted a heightened pro-inflammatory gene expression signature. Group 3 innate lymphoid cells (ILC3s), but not ILC1s or ILC2s, were similarly responsive to IGF signaling. Mice with deficiency of IGF1R targeted to T cells failed to fully develop disease in the experimental autoimmune encephalomyelitis (EAE) model of multiple sclerosis. Thus, the IGF system represents a previously unappreciated pathway by which type 3 immunity is modulated and immune-mediated pathogenesis controlled.

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T _H 17 cells require ongoing classic IL-6 receptor signaling to retain transcriptional and functional identity

et al. 2020

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Acting in concert with TGF-β, interleukin-6 (IL-6) signaling induces T helper 17 (TH17) cell development by programming TH17-related genes via signal transducers and activators of transcription 3 (STAT3). A role for IL-6 signaling beyond the inductive phase of TH17 cell development has not been defined because IL-23 signaling downstream of TH17 cell induction also activates STAT3 and is thought responsible for TH17 cell maintenance. Here, we find that IL-6 signaling is required for both induction and maintenance of mouse TH17 cells; IL-6Rα–deficient TH17 cells rapidly lost their TH17 phenotype and did not cause disease in two models of colitis. Cotransfer of wild-type TH17 cells with IL-6Rα–deficient TH17 cells induced colitis but was unable to rescue phenotype loss of the latter. High IL-6 expression in the colon promoted classic, or cis, rather than transreceptor signaling that was required for maintenance of TH17 cells. Thus, ongoing classic IL-6 signaling underpins the TH17 program and is required for TH17 cell maintenance and function.

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Stacey N. Harbour

Th17 cells give rise to Th1 cells that are required for the pathogenesis of colitis

IL-22–producing neutrophils contribute to antimicrobial defense and restitution of colonic epithelial integrity during colitis

Muc1 Mucin Limits Both Helicobacter pylori Colonization of the Murine Gastric Mucosa and Associated Gastritis

Insulin-Like Growth Factors Are Key Regulators of T Helper 17 Regulatory T Cell Balance in Autoimmunity

T _H 17 cells require ongoing classic IL-6 receptor signaling to retain transcriptional and functional identity

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Stacey N. Harbour

Th17 cells give rise to Th1 cells that are required for the pathogenesis of colitis

IL-22–producing neutrophils contribute to antimicrobial defense and restitution of colonic epithelial integrity during colitis

Muc1 Mucin Limits Both Helicobacter pylori Colonization of the Murine Gastric Mucosa and Associated Gastritis

Insulin-Like Growth Factors Are Key Regulators of T Helper 17 Regulatory T Cell Balance in Autoimmunity

T H 17 cells require ongoing classic IL-6 receptor signaling to retain transcriptional and functional identity

Contact Info

Product

Resources

About

T _H 17 cells require ongoing classic IL-6 receptor signaling to retain transcriptional and functional identity