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Drosophila and mouse intestinal stem cells are spatiotemporally specified by Notch suppression and Wnt activation #MMPMID41337595
Wu Y; Yu L; Yu Y; Wu S; Yuan Q; Duan W; Cai S; Xiong B; Lin R; Guo Z
Sci Adv 2025[Dec]; 11 (49): eady7272 PMID41337595show ga
The specification of intestinal stem cells (ISCs) during development is critical for maintaining intestinal homeostasis. However, the mechanisms underlying this process remain elusive. Here, by counting and tracing ISC in Drosophila pupal midgut, we show that ISCs are specified within a narrow 12-hour developmental window, with ~150 ISCs emerging from a pool of ~6000 intestinal epithelial cells. Single-cell sequencing revealed the involvement of Notch and Wnt signaling, with genetic experiments demonstrating that ISC specification requires both Notch suppression and Wnt activation. Furthermore, we showed that Wnt signaling is activated in discrete spatial domains, and Notch-mediated lateral inhibition specifies ISCs in these Wnt-active zones, achieving a ratio of ~1/40. Notably, Notch suppression also promoted the specification of Lgr5(+) progenitors in the mouse embryonic intestine. Together, our data show that Wnt activation defines niches permissive for ISC fate, whereas Notch suppression licenses fate commitment, a spatiotemporal coordination conserved from insects to mammals.
Sci+Adv 2025 ; 11 (49): eady7272
