PLoS Biol. 2025 Oct 6;23(10):e3003430. doi: 10.1371/journal.pbio.3003430. Online ahead of print.
ABSTRACT
Anterior-posterior axis formation in the mouse embryo requires the active migration of the DVE cell population at E5.5. While intracellular Ca2+ signaling has been shown to control cell migration in multiple cell contexts, it is unknown whether it is required for DVE migration. The pattern of Ca2+ activity in the mouse embryo at early peri-implantation stages is also unknown. Using the GCaMP6f Ca2+ reporter line, we performed a detailed assessment of Ca2+ dynamics between E0.5 and E5.5 using live imaging. We find that prior to implantation, Ca2+ transients are rare, but at E5.5 widespread, periodic, Ca2+ transients in extraembryonic tissues can be observed, including in the VE and ExE. In contrast, cells of the E5.5 epiblast remain relatively quiescent but show sporadic large-scale multicellular waves. Inhibition of SERCA at E5.5 abolishes Ca2+ transients and leads to DVE arrest, indicative that these transients are required for axial patterning. Together, these results reveal the pattern of Ca2+ handling in the early mouse embryo and a novel requirement in anterior-posterior axis formation.
PMID:41052211 | DOI:10.1371/journal.pbio.3003430