间充质
生物
细胞生物学
间充质干细胞
形态发生
突变体
表型
胚胎干细胞
调节器
遗传学
基因
作者
Yuwei Pan,Shiyang Wang,Wuqi Yang,Xi Wu,Hanfu Zhang,Sujuan Du,Mingxin Zhang,Liyuan Hou,Maksim V. Plikus,Jianwei Shuai,Cong Lv,Lu Yu,Zhengquan Yu
出处
期刊:Development
[The Company of Biologists]
日期:2025-06-16
卷期号:152 (20)
被引量:1
摘要
Developing gut in mice undergoes rapid elongation during late embryogenesis, yet significantly slows down after birth. The precise regulatory mechanism of this dynamic morphogenetic process remains unknown. By utilizing single-cell RNA-sequencing analysis, we show that YAP activity in intestinal fibroblasts is the major molecular contributor to gut elongation. To determine how mesenchymal YAP activity is controlled, we identified canonical sarcolemma membrane-associated protein (SLMAP) as its critical regulator during mouse embryonic gut morphogenesis. Deleting Slmap in gut mesenchyme impairs YAP activity, leading to a short gut and a significant decrease in intestinal epithelial cell proliferation. Mechanistically, SLMAP activates YAP by directly regulating MST3 kinase. Physiologically, MST3 levels prominently increase over the developmental time, reaching their peak on postnatal day (P)14, when gut elongation in mice slows down. Depleting Mst3 in mesenchyme results in increased gut length at P14 accompanied by enhanced YAP activity. Importantly, a short gut phenotype in mesenchyme-specific Slmap mutant mice is partially compensated for by concomitant deletion of mesenchymal Mst3. Taken together, our findings demonstrate that SLMAP interacts with MST3 kinase to regulate the mesenchymal YAP activity that governs dynamic gut elongation across embryonic and postnatal development.
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