TY - JOUR TI - Regulated IFN signalling preserves the stemness of intestinal stem cells by restricting differentiation into secretory-cell lineages AU - Sato, Taku AU - Ishikawa, Shun AU - Asano, Jumpei AU - Yamamoto, Hirona AU - Fujii, Masayuki AU - Sato, Toshiro AU - Yamamoto, Kouhei AU - Kitagaki, Keisuke AU - Akashi, Takumi AU - Okamoto, Ryuichi AU - Ohteki, Toshiaki T2 - Nature Cell Biology AB - Intestinal stem cells (ISCs) are located at the crypt base and fine-tune the balance of their self-renewal and differentiation1,2, but the physiological mechanism involved in regulating that balance remains unknown. Here we describe a transcriptional regulator that preserves the stemness of ISCs by restricting their differentiation into secretory-cell lineages. Interferon regulatory factor 2 (IRF2) negatively regulates interferon signalling3, and mice completely lacking Irf24 or with a selective Irf2 deletion in their intestinal epithelial cells have significantly fewer crypt Lgr5hi ISCs than control mice. Although the integrity of intestinal epithelial cells was unimpaired at steady state in Irf2-deficient mice, regeneration of their intestinal epithelia after 5-fluorouracil-induced damage was severely impaired. Similarly, extended treatment with low-dose poly(I:C) or chronic infection of lymphocytic choriomeningitis virus clone 13 (LCMV C13)5 caused a functional decline of ISCs in wild-type mice. In contrast, massive accumulations of immature Paneth cells were found at the crypt base of Irf2−/− as well as LCMV C13-infected wild-type mice, indicating that excess interferon signalling directs ISCs towards a secretory-cell fate. Collectively, our findings indicate that regulated interferon signalling preserves ISC stemness by restricting secretory-cell differentiation. DA - 2020/07/20/ PY - 2020 DO - 10.1038/s41556-020-0545-5 DP - www.nature.com SP - 1 EP - 8 LA - en SN - 1476-4679 UR - https://www.nature.com/articles/s41556-020-0545-5 Y2 - 2020/07/20/17:02:04 ER -