Intestinal epithelial PTPN23 is essential for gut barrier integrity and prevention of fatal bacterial translocation.

Abstract

Background and aims: Protein tyrosine phosphatase nonreceptor type 23 (PTPN23) regulates the internalization of growth factor receptors such as the epithelial growth factor receptor (EGFR). Given the crucial function of such receptors in intestinal epithelial cells (IECs), we assessed the involvement of PTPN23 in intestinal homeostasis and epithelial proliferation.

Methods: We generated mouse models with constitutive (PTPN23fl/flVilCre+/-) or inducible (PTPN23fl/flVilCreERT+/-) deletion of PTPN23 in IEC. To elucidate the functional consequences of PTPN23 deletion in IEC, we performed barrier function studies, flow cytometry, RNAseq, and in vivo experiments applying EGFR inhibition, antibiotic treatment, or co-housing approaches to further delineate the observed phenotype.

Results: Deletion of PTPN23 in IECs resulted in a severe early-onset phenotype in both models. Mice were characterized by elongated colon, epithelial hyperproliferation, splenomegaly, and diarrhea leading to the death of the mice within 3 weeks of PTNP23 deletion. Compromised gut barrier integrity resulted in enhanced bacterial translocation accompanied by reduced IgA transcytosis in PTPN23fl/flVilCreERT+/- compared to wild-type mice. Although EGFR surface expression was increased upon PTPN23-deletion, inhibition of EGFR signaling did not prevent disease. In contrast, and in accordance with defective bacterial handling, antibiotic treatment, but not co-housing, fully rescued the phenotype.

Conclusions: The absence of PTPN23 in IECs leads to lethal dysregulation of intestinal homeostasis, triggered by bacterial infiltration due to defects in the intestinal epithelial barrier and impaired IgA transcytosis. Thus, we identify PTPN23 as a novel key player in preserving intestinal epithelial homeostasis, ultimately preventing bacterial overgrowth and excessive immune activation in the intestine.