BMP–Smad1/9 signaling plays a critical role in regulating zebrafish PGC proliferation
Tao Zheng, Yaqi Li, Guangyuan Li, Zihang Wei, Jie Li, Zheng Jiang, Roshan Shah, Weiying Zhang, Cencan Xing, Anming Meng, Xiaotong Wu
Journal:Nature Communications
IF:18.1
DOI:10.1038/s41467-026-70624-8
PMID:41839895
Published:2026-03-16
research field:分子生物学细胞信号传导遗传学发育生物学
Abstract
The germ cell fate in zebrafish is determined by germ plasm, whereas mammalian germ cell fate is induced by bone morphogenetic protein (BMP) signaling. It remains elusive whether BMP signaling is implicated in zebrafish germ cell development. Here, we demonstrate that BMP–Smad1/9 signaling plays a critical role in zebrafish primordial germ cell (PGC) maintenance rather than fate determination. BMP inhibition or smad1/9 knockdown reduces PGC numbers. Furthermore, we generated PGC-specific smad1 / 9 knockouts using a transgenic approach with PGC-specifically expressed Cas9 and ubiquitously expressed guide RNAs. Smad1/9 deficiency in PGCs leads to impaired PGC proliferation and increased apoptosis, consequently reducing PGC numbers. Transcriptome analysis revealed unchanged PGC-specific gene expression, but a marked upregulation of DNA damage response-related genes, which is validated by ectopic ATR–pChk1 activation in PGCs and PGC restoring by ATR inhibition. Collectively, these findings underscore conserved but functionally distinct roles of BMP signaling in vertebrate PGC development. BMP–Smad signaling is essential for mammalian primordial germ cell (PGC) fate specification, but whether BMP signaling functions in the zebrafish germline remains elusive. Here they show that BMP signaling is required for PGC proliferation but not fate specification.
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