Polarization-independent regulation of the subcellular localization of Yes-associated protein 1 during preimplantation development
Shun Saito, Koji Nishiyama, Hanako Bai, Masashi Takahashi, Manabu Kawahara

TL;DR
This study explores how YAP1 localization changes during early bovine embryo development and its relationship with cell polarization and pluripotency.
Contribution
The study reveals species-specific differences in YAP1 localization and its regulation during early mammalian development.
Findings
YAP1 is primarily cytoplasmic in bovine morulae, unlike in mouse embryos.
Cell polarization in bovine embryos precedes YAP1 nuclear localization.
Zona pellucida presence enhances YAP1 cytoplasmic localization and suppresses pluripotency.
Abstract
Cell polarization is a crucial developmental process that determines cell differentiation in mouse embryos. During this process, an extensively expressed transcriptional regulator, Yes-associated protein 1 (YAP1), is localized either to the cytoplasm or to the nucleus via HIPPO signaling. In mouse premorula embryos, YAP1 is present in the nuclei of all cells. Thereafter, YAP1 is distributed to the nuclei of outer cells or cytoplasm of inner cells, depending on the establishment of cell polarity and morula formation. However, the dynamics of YAP1 localization in other species, including ruminants, remain unclear. To gain an in-depth understanding of cell differentiation in mammalian embryos, we investigated YAP1 localization changes in bovine embryos. Unlike in mouse morulae, YAP1 displayed cytoplasmic localization in most cells, including the outer cells of bovine morulae, after the…
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Taxonomy
TopicsHippo pathway signaling and YAP/TAZ · RNA Research and Splicing · Cancer-related gene regulation
