Abstract
Abstract Background IL-10 is appreciated for its potent anti-inflammatory effects on leukocytes in mucosal immunity. However, far less attention has been paid to the impact of IL-10 on epithelial cells, which make up the crucial barrier interface between the host mucosa and the external environment. Furthermore, most studies examine the effects of exogenous IL-10, disregarding the possible presence and function of autocrine or paracrine IL-10 in the epithelium. Aims Using ex vivo organoids we aimed to examine the small intestinal epithelium for IL-10 and dissect any role for endogenously produced cytokine. Methods We growed small intestinal organoids (enteroids) from crypts isolated from C57BL/6 mice (WT) and IL-10-gene knockout mice (IL-10KO). Cellular markers were characterized through qpCR, while IL-10 and IL-10 receptor localization was characterized though immunofluorescence. Results We discovered that cells in WT enteroids expressed IL-10 and IL-10R1 constitutively throughout development. Immunofluorescent staining revealed that IL-10 localizes to Paneth cells and appears to be secreted apically. Having established that IL-10 is secreted in enteroids, we compared enteroids from IL-10KO versus WT mice. IL-10KO enteroids developed to morphologically resemble WT enteroids; however, we detected an imbalance with lower secretory cell markers over absorptive cell types in the IL-10KO enteroids, measured as less mRNA for lysozyme, cryptdins and mucin-2. Addition of IL-10 to IL-10KO enteroids did not correct these defects, but did ameliorate the lineage balance by reducing absorptive cell lineage markers (sucrose isomaltase). IL-10R1 was localized on both apical and basolateral side of cell in enteroids. We suspect that epithelial-derived IL-10 likely acts on apical IL-10R, which may conduct a different response from basolateral receptor stimulation. Conclusions In conclusion, IL-10 is present in the small intestinal epithelium; more remains to be determined regarding the role this cytokine plays in gut development and homeostasis. Funding Agencies NSERC
Published Version
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