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Robust Colonic Epithelial Regeneration and Amelioration of Colitis via FZD-Specific Activation of Wnt Signaling

Liqin Xie, Russell B. Fletcher, Diksha Bhatia, Darshini Shah, Jacqueline Phipps, Shalaka Deshmukh, Haili Zhang, Jingjing Ye, Sung‐Jin Lee, Lucas Le, Maureen Newman, Hui Chen, Asmiti Sura, Suhani Gupta, Laura E. Sanman, Fan Yang, Weixu Meng, Hélène Baribault, Geertrui F. Vanhove, Wen‐Chen Yeh, Yang Li, Chenggang Lu

2022Cellular and Molecular Gastroenterology and Hepatology49 citationsDOIOpen Access PDF

Abstract

BACKGROUND AND AIMS: Current management of inflammatory bowel disease leaves a clear unmet need to treat the severe epithelial damage. Modulation of Wnt signaling might present an opportunity to achieve histological remission and mucosal healing when treating IBD. Exogenous R-spondin, which amplifies Wnt signals by maintaining cell surface expression of Frizzled (Fzd) and low-density lipoprotein receptor-related protein receptors, not only helps repair intestine epithelial damage, but also induces hyperplasia of normal epithelium. Wnt signaling may also be modulated with the recently developed Wnt mimetics, recombinant antibody-based molecules mimicking endogenous Wnts. METHODS: We first compared the epithelial healing effects of RSPO2 and a Wnt mimetic with broad Fzd specificity in an acute dextran sulfate sodium mouse colitis model. Guided by Fzd expression patterns in the colon epithelium, we also examined the effects of Wnt mimetics with subfamily Fzd specificities. RESULTS: In the DSS model, Wnt mimetics repaired damaged colon epithelium and reduced disease activity and inflammation and had no apparent effect on uninjured tissue. We further identified that the FZD5/8 and LRP6 receptor-specific Wnt mimetic, SZN-1326-p, was associated with the robust repair effect. Through a range of approaches including single-cell transcriptome analyses, we demonstrated that SZN-1326-p directly impacted epithelial cells, driving transient expansion of stem and progenitor cells, promoting differentiation of epithelial cells, histologically restoring the damaged epithelium, and secondarily to epithelial repair, reducing inflammation. CONCLUSIONS: It is feasible to design Wnt mimetics such as SZN-1326-p that impact damaged intestine epithelium specifically and restore its physiological functions, an approach that holds promise for treating epithelial damage in inflammatory bowel disease.

Topics & Concepts

Wnt signaling pathwayFrizzledLRP6EpitheliumCell biologyBiologyRegeneration (biology)ColitisLRP5Intestinal epitheliumProgenitor cellStem cellReceptorImmunologyCancer researchSignal transductionBiochemistryGeneticsWnt/β-catenin signaling in development and cancerInflammatory Bowel DiseaseCancer Cells and Metastasis
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