生物
河马信号通路
蛋白质酪氨酸磷酸酶
细胞生物学
表型
癌症研究
生物信息学
信号转导
遗传学
基因
作者
Edel M. McCrea,Neoklis Makrides,Takako Tabata,Wencke Reineking,José G. Vilches-Moure,Mengxiong Wang,Julie Lake,Hannes Vogel,Brooke E. Howitt,Xin Zhang,Laura D. Attardi
出处
期刊:Genes & Development
[Cold Spring Harbor Laboratory Press]
日期:2025-06-18
卷期号:39 (17-18): 1045-1063
标识
DOI:10.1101/gad.352620.125
摘要
The Hippo pathway regulates many physiological processes, including development, tumor suppression, and wound healing. One understudied Hippo pathway component is PTPN14, an evolutionarily conserved tyrosine phosphatase that inhibits YAP/TAZ. Although it is an established tumor suppressor, PTPN14's role in tissue homeostasis has remained unclear. We thus generated Ptpn14 -deficient mice and found that only ∼60% of Ptpn14 − / − mice survived postnatally, highlighting the importance of PTPN14 for viability while also enabling the discovery of PTPN14 physiological functions. Ptpn14 − / − mice developed debilitating corneal lesions and the uterus defect hydrometra, as well as heart and kidney abnormalities. Ptpn14 deficiency precipitated an impaired injury response in the cornea and dysregulated YAP signaling in both the uterus and the cornea. Notably, these phenotypes were female-specific, revealing sexually dimorphic Hippo pathway function through PTPN14. Finally, analysis of human PTPN14 variants suggested that PTPN14's essential roles are conserved in humans, underscoring the importance of our insights for designing therapies to improve women's health.
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