Hildner K, Punkenburg E, Abendroth B, Neurath M (2016)
Publication Type: Journal article
Publication year: 2016
Book Volume: 34 Suppl 1
Pages Range: 40-7
DOI: 10.1159/000447281
Inflammatory bowel diseases (IBDs) represent a group of chronic immune-mediated disorders that are influenced by a genetic predisposition and additional environmental triggers. Genome-wide association studies strongly implicate that a number of immune system-related genetic variations are critically contributing to the initiation and promotion of intestinal inflammation. Especially the identification of the strong association of a series of single nucleotide polymorphisms including interleukin (IL)-23R, CCR6, signal transducer and activator of transcription 3 (Stat3) and Stat4 with IBD susceptibility point at a critical involvement of T cells and especially of IL-17a-producing Th17 cells in the immune pathogenesis of IBD. In line with this hypothesis, a series of preclinical studies have unequivocally established that T cells are key drivers of immune-mediated colitis. Interestingly, especially Th17 cells were identified to be highly prevalent in inflamed IBD tissues, a finding that seems to be functionally relevant as genetic inactivation studies in the mouse resulted in almost complete suppression of colitis development.While targeting Th17 cell differentiation regulating transcription factors, as retinoic acid-related orphan receptor gamma t (ROR?t) is effective in preventing murine colitis, one concern of drugs targeting ROR?t in a clinical setting represents the large body of murine data unambiguously demonstrating that additional pathways within and outside the immune system are equally ROR?t-dependent increasing the risk of undesirable side effects. The AP1 transcription factor Batf (B cell-activating transcription factor) appears to exclusively regulate pathways within lymphocytes. Importantly, Batf represents a central regulator of Th17 cell development and is strongly upregulated within IBD-affected tissues. Employing 2 acute colitis models, we demonstrate in this study that Batf-expressing T cells are critical drivers of T cell-mediated colitis while in contrast to Stat3 loss of Batf does not affect intestinal epithelial cell homeostasis ex vivo.Targeting Batf in IBD emerges as an attractive therapeutic approach disabling colitogenic T cell activities while sparing off-target effects in the intestinal epithelial cell compartment.
APA:
Hildner, K., Punkenburg, E., Abendroth, B., & Neurath, M. (2016). Immunopathogenesis of IBD: Batf as a Key Driver of Disease Activity. Digestive Diseases, 34 Suppl 1, 40-7. https://doi.org/10.1159/000447281
MLA:
Hildner, Kai, et al. "Immunopathogenesis of IBD: Batf as a Key Driver of Disease Activity." Digestive Diseases 34 Suppl 1 (2016): 40-7.
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