Altered colonocyte differentiation may lead to decreased electrolyte and fluid absorption in the ileocolon of IBD patients by affecting the expression pattern of the responsible ion transporters

Crohn's disease and ulcerative colitis are chronic inflammatory bowel diseases (IBD) characterized by disturbed homeostasis of the immune system, the intestinal mucosa and the microbiome, causing ‘leaky’ intestinal epithelial barrier with altered fluid and electrolyte absorption leading to diarrhea. Fluid absorption in the ileocolonic region is predominantly mediated by the Cl - /HCO 3 - exchanger SLC26A3 (DRA) and the Na + /H + exchanger SLC9A3 (NHE3), while in the distal colon, the epithelial Na + channel (ENaC) also plays a role. The objective of the current study is to evaluate if the downregulation of specific absorptive ion transporters or general defect of the enterocyte differentiation correlate with the degree of diarrhea and inflammation. For this reason, we have analyzed the mRNA expression and/or protein abundance of DRA, NHE3 and ENaC, as well as a panel of genes that correlate with the differentiation state of the colonic epithelium, in different segments of the ileocolon of healthy individuals and IBD patients with an acute flare or in remission. Endoscopy and histopathologic scoring and TNFα mRNA levels were used to grade inflammation, clinical scores for disease activity and diarrhea. mRNA expression and immunohistochemical staining of DRA and NHE3 in healthy colonic tissue revealed differences in the expression pattern of DRA and NHE3 along the human colon, with DRA being most abundant in the transverse and descending colon and NHE3 in the ascending colon (n=10). The reduction of DRA and NHE3 mRNA expression/abundance in the membrane correlated with the degree of inflammation as well as the diarrhea score (n=42), while in inactive disease the expression and abundance of DRA and NHE3 did not differ from healthy controls (n=13). Furthermore, significant decrease of the ENaC subunit ENaCγ expression was detected in inflamed colon sigmoideum (n=30). Since the addressed ion transporters are expressed on differentiated intestinal epithelial cells, we further investigated if their altered expression is linked to a possible defect of the epithelial differentiation program. It was found that the mRNA expression of the absorptive enterocyte differentiation markers intestinal alkaline phosphatase (iALP), villin and HES1 was significantly decreased in inflamed colon, while the expression of the proliferative marker Ki67, HOPX, BM1 and Claudin2 was significantly increased. However, the expression of the stem cell marker LGR5 was not altered (n=30). The results showed a disrupted transcriptional regulation of the epithelial ion transporters DRA, NHE3 and ENaCγ in the inflamed epithelium of IBD patients, which will lead to their reduced function and cause electrolyte/water accumulation leading to diarrhea. The decreased expression of the epithelial ion transporters could be a consequence of the altered enterocyte differentiation of the inflamed epithelium, most likely due to signaling pathways triggered by the proinflamatory cytokines. Grant Support: DFG SE 460/21-1 and 22-1, and VW Z1953. This is the full abstract presented at the American Physiology Summit 2023 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.