Hubrecht Institute for Developmental Biology and Stem Cell Research and University Medical Centre Utrecht, Utrecht, The Netherlands.
Gastroenterology. 2012 Dec;143(6):1518-1529.e7. doi: 10.1053/j.gastro.2012.08.031. Epub 2012 Aug 23.
BACKGROUND & AIMS: Wnt signaling regulates multiple aspects of intestinal physiology, including stem cell maintenance. Paneth cells support stem cells by secreting Wnt, but little is known about the exact sources and primary functions of individual Wnt family members.
We analyzed intestinal tissues and cultured epithelial cells from adult mice with conditional deletion of Wnt3 (Vil-CreERT2;Wnt3fl/fl mice). We also analyzed intestinal tissues and cells from Atoh1 mutant mice, which lack secretory cells.
Unexpectedly, Wnt3 was dispensable for maintenance of intestinal stem cells in mice, indicating a redundancy of Wnt signals. By contrast, cultured crypt organoids required Paneth cell-derived Wnt3. Addition of exogenous Wnt, or coculture with mesenchymal cells, restored growth of Vil-CreERT2;Wnt3fl/fl crypt organoids. Intestinal organoids from Atoh1 mutant mice did not grow or form Paneth cells; addition of Wnt3 allowed growth in the absence of Paneth cells. Wnt signaling had a synergistic effect with the Lgr4/5 ligand R-spondin to induce formation of Paneth cells. Mosaic expression of Wnt3 in organoids using a retroviral vector promoted differentiation of Paneth cells in a cell-autonomous manner.
Wnt is part of a signaling loop that affects homeostasis of intestinal stem and Paneth cells in mice. Wnt3 signaling is required for growth and development of organoid cultures, whereas nonepithelial Wnt signals could provide a secondary physiological source of Wnt.
Wnt 信号通路调节肠道生理学的多个方面,包括干细胞的维持。潘氏细胞通过分泌 Wnt 来支持干细胞,但对于单个 Wnt 家族成员的确切来源和主要功能知之甚少。
我们分析了成年小鼠中条件性缺失 Wnt3(Vil-CreERT2;Wnt3fl/fl 小鼠)的肠道组织和培养的上皮细胞。我们还分析了缺乏分泌细胞的 Atoh1 突变小鼠的肠道组织和细胞。
出乎意料的是,Wnt3 对于维持小鼠肠道干细胞是可有可无的,这表明 Wnt 信号具有冗余性。相比之下,培养的隐窝类器官需要潘氏细胞来源的 Wnt3。添加外源性 Wnt 或与间充质细胞共培养,可恢复 Vil-CreERT2;Wnt3fl/fl 隐窝类器官的生长。来自 Atoh1 突变小鼠的肠道类器官不能生长或形成潘氏细胞;添加 Wnt3 可在没有潘氏细胞的情况下允许生长。Wnt 信号与 Lgr4/5 配体 R-spondin 具有协同作用,可诱导潘氏细胞的形成。使用逆转录病毒载体在类器官中对 Wnt3 进行镶嵌表达,可促进潘氏细胞的自主分化。
Wnt 是影响小鼠肠道干细胞和潘氏细胞体内平衡的信号通路的一部分。Wnt3 信号对于类器官培养物的生长和发育是必需的,而非上皮细胞的 Wnt 信号可以提供 Wnt 的次要生理来源。
