Cytoplasmic divisions without nuclei

Abstract

AbstractCytoplasmic divisions have been commonly considered a sequel to nuclear divisions, even in the absence of DNA replication. Here we found in fruit fly embryos that the cytoplasm can compartmentalize and divide without nuclei. Our targeted screen for potential necessary and sufficient conditions revealed that, although the cytoplasmic compartments are tightly associated with centrosomes, they can form without astral microtubules and divide without centrioles. Although a focal pool of microtubules is necessary for maintaining cytoplasmic compartments, this is not sufficient for their initial formation. Actin filaments are similarly an essential component of cytoplasmic compartments; however, their myosin II-based contractility is unexpectedly dispensable for divisions. We show that the myosin II-based contractility is instead involved in regulating the pace of these divisions. Importantly, our results revealed that the cytoplasmic divisions without nuclei can occur in a periodic manner autonomously of the Cdk-Cyclin oscillator that normally drives the cell cycle. We demonstrate that such autonomy of cytoplasmic divisions is preserved even in normal development, where it is leveraged to extrude mitotically delayed nuclei from the blastoderm, protecting the synchrony of rapid nuclear divisions against local delays in mitotic entry. We propose that an active coordination between otherwise autonomous cycles of cytoplasmic and nuclear divisions acts as a quality control mechanism for genome integrity and partitioning in development.