Abstract

Abstract BACKGROUND IL-17A/F signaling through the IL-17RA/RC receptor complex plays a vital role in immunity and inflammation. The expression of IL-17RA/RC by diverse intestinal epithelial cell types including Paneth cells and the observation that therapies neutralizing IL-17A or IL-17RA in Crohn’s disease (CD) patients induce adverse events suggest essential homeostatic functions of this cytokine. Paneth cells and their antimicrobial products (a-defensins, lysozyme etc.) play a critical role in mediating small intestinal host defense under homeostatic conditions as well as after injury or infection, and their dysregulation constitutes a pathogenic factor for CD. The specific role of intestinal IL-17A signaling in Paneth cells to regulate host defense at steady state or after intestinal inflammation remains poorly understood. Thus, we hypothesize that intestinal IL-17A signaling, specifically in Paneth cells, plays an important role in regulating microbiota colonization as well as maintaining intestinal integrity after gamma radiation induced injury. METHODS To examine the importance of IL-17RA signaling to Paneth cells, we utilized total, entire gut epithelium (Il17rafl/fl;villin-cre) and Paneth cell-specific IL-17RA knockout mice (Il17rafl/fl;Defa6-cre+). We subjected these mice with gamma irradiation (1200 cGy) to study intestinal injury and regenerative responses. Mice were sacrificed 3/5 days post irradiation. Terminal ilium was collected from naïve or irradiated mice for immunofluorescence imaging, RT-PCR, RNA sequencing, and enteroid cultures. RESULTS Our preliminary data from irradiated Il17ra-/- and Il17rafl/fl;villin-cre mice suggest that IL-17A signaling is important in maintaining intestinal barrier integrity. Specifically, these mice revealed increased microbial dissemination to liver and spleen compared to their respective control mice. Reduced expression of Lyz1 3 days post radiation in the terminal ileum of Il17ra-/- mice suggest impaired Paneth cell function. Cessation of Paneth cell specific IL-17RA signaling, also resulted in systemic bacterial dissemination 5 days post radiation. We also observed increased level of fecal Lcn2 in irradiated Il17rafl/fl;Defa6-cre+ mice. To understand Paneth cell-specific IL-17RA functions, we performed 16S microbial and RNA sequencing from ileum luminal contents and terminal ilea of naïve Il17rafl/fl;Defa6-cre+/- mice, respectively. While microbial 16s sequencing revealed no change to the overall microbial community, specific changes were observed at a select family level. Specifically, the level of Streptococcaceae was increased. RNA sequencing data showed no difference in Paneth cell antimicrobial peptides but did show reduced Caspase 4 expression in Il17rafl/fl;Defa6-cre+ mice. Collectively, our data revealed an important role of IL-17RA signaling in Paneth cell function at steady state and after injury.

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