Organoids transplantation as a new modality to design epithelial signature to create a membrane-protective sulfomucin-enriched segment.

Autor: Watanabe, Satoshi, Ogasawara, Nobuhiko, Kobayashi, Sakurako, Kirino, Sakura, Inoue, Masami, Hiraguri, Yui, Nagata, Sayaka, Shimizu, Hiromichi, Ito, Go, Mizutani, Tomohiro, Nemoto, Yasuhiro, Tsuchiya, Kiichiro, Okamoto, Ryuichi, Watanabe, Mamoru, Yui, Shiro
Předmět:
Zdroj: Journal of Gastroenterology; Apr2023, Vol. 58 Issue 4, p379-393, 15p
Abstrakt: Background: The organoids therapy for ulcerative colitis (UC) is under development. It is important to dissect how the engrafted epithelium can provide benefits for overcoming the vulnerability to inflammation. We mainly focused on the deliverability of sulfomucin, which is reported to play an important role in epithelial function. Methods: We analyzed each segment of colon epithelium to determine differences in sulfomucin production in both mice and human. Subsequently, we transplanted organoids established from sulfomucin-enriched region into the injured recipient epithelium following dextran sulfate sodium-induced colitis and analyzed the engrafted epithelium in mouse model. Results: In human normal colon, sulfomucin production was increased in proximal colon, whereas it was decreased in the inflammatory region of UC. In murine colon epithelium, increased sulfomucin production was found in cecum compared to distal small intestine and proximal colon. RNA sequencing analysis revealed that several key genes associated with sulfomucin production such as Papss2 and Slc26a1 were enriched in isolated murine cecum crypts. Then we established murine cecum organoids and transplanted them into the injured epithelium of distal colon. Although the expression of sulfomucin was temporally decreased in cecum organoids, its secretion was restored again in the engrafted patches after transplantation. Finally, we verified a part of mechanisms controlling sulfomucin production in human samples. Conclusion: This study illustrated the deliverability of sulfomucin in the disease-relevant grafting model to design sulfomucin-producing epithelial units in severely injured distal colon. The current study is the basis for the better promotion of organoids transplantation therapy for refractory UC. [ABSTRACT FROM AUTHOR]
Databáze: Complementary Index