Modulation of WNT signalling by inflammatory factor TWEAK, and its consequences on fibroblast-epithelial communication

Abstract

BACKGROUND AND AIMS: A single layer of epithelial cells that are supported by resident mucosal fibroblasts, provides an intestinal barrier against pathogens. In Inflammatory Bowel Disease (IBD), this barrier is disrupted by mechanisms which are poorly understood. Intestinal fibroblasts produce WNT, BMP and Notch mediators that contribute to epithelial homeostasis and an impairment on these signals results in the loss of barrier integrity which has been observed in IBD. In fact, fibroblasts producing these signals may be lost during inflammation. Yet the mediators and mechanism that drive this loss of homeostatic stromal-derived signals are unknown. TWEAK is a member of the tumour necrosis factor superfamily (TNFSF) that was found to be upregulated in IBD biopsies and dysregulated tissue repair and promote chronic inflammation in in vivo murine models. However, whether TWEAK exerts its effects on fibroblasts and how these may contribute to barrier breakdown remains unknown. My central hypothesis is that TWEAK dysregulates the crosstalk between fibroblasts and epithelial cells in the intestinal tract by impairing a homeostatic signalling network. METHODS: To assess the effect of TWEAK on WNT signalling and wound healing in fibroblasts and epithelial cells, the expression of WNT ligands and receptors were assessed. Primary human colonic fibroblasts and human colonic epithelial cells were stimulated with TWEAK at various time points and analysed by qPCR, Western blot and Flow cytometry and scratch wound assay. RESULTS: Both Fibroblasts and epithelial cells displayed abundant Fn14 surface receptor, although epithelial cells at a level lower than that found on colonic fibroblasts. Transcriptional signatures at gene RSPO2 (0.5-fold ± decrease, *p<0.05, n=4), WNT5A (1 fold ± decrease, **p<0.01, n=4) and BMP6 (1 fold ± decrease, ***p<0.001, n=4) and protein level RSPO2 (50% ± decrease respectively, n=5) showed a TWEAK-mediated suppression after prolonged exposure (24-48h), but not in epithelial cells. Moreover, TWEAK delayed fibroblast healing capacity after 24h (50% ± decrease in wound closure, n=4) in a wound-scratch assay. CONCLUSION: TWEAK represses the expression of homeostatic factors in colonic fibroblasts but not on epithelial cells, suggesting this mechanism could be specific to the intestinal stroma. The effect that this impairment of WNT signals in stromal cells may have on their differentiation and communication with the epithelium will be subject for further study. UCD Ad Astra PhD Scholarship. This is the full abstract presented at the American Physiology Summit 2024 meeting and is only available in HTML format. There are no additional versions or additional content available for this abstract. Physiology was not involved in the peer review process.