Abstract
Cytokinesis, the physical division of one cell into two, is powered by constriction of an actomyosin contractile ring. It has long been assumed that all animal cells divide by a similar molecular mechanism, but growing evidence suggests that cytokinetic regulation in individual cell types has more variation than previously realized. In the four-cell Caenorhabditis elegans embryo, each blastomere has a distinct cell fate, specified by conserved pathways. Using fast-acting temperature-sensitive mutants and acute drug treatment, we identified cell-type-specific variation in the cytokinetic requirement for a robust forminCYK-1-dependent filamentous-actin (F-actin) cytoskeleton. In one cell (P2), this cytokinetic variation is cell-intrinsically regulated, whereas in another cell (EMS) this variation is cell-extrinsically regulated, dependent on both SrcSRC-1 signaling and direct contact with its neighbor cell, P2. Thus, both cell-intrinsic and -extrinsic mechanisms control cytokinetic variation in individual cell types and can protect against division failure when the contractile ring is weakened.
Highlights
Cytokinesis is the physical division of one cell into two daughter cells, which occurs at the end of the cell cycle
We used thermogenetics, drug treatment, and embryo microdissection to probe the mechanisms of cell-type-based variation in the regulation of cytokinesis among individual blastomeres within the four-cell C. elegans embryo
We found cell-type-specific differences in both the functional levels and temporal window of activity required for forminCYK-1 activity, but not myosin-IINMY-2 activity, during cytokinesis
Summary
Cytokinesis is the physical division of one cell into two daughter cells, which occurs at the end of the cell cycle. Cytokinesis failure, which results in a binucleate tetraploid (polyploid) cell, can lead to human diseases including blood syndromes, neurological disorders, and cancer (Bione et al, 1998; Moulding et al, 2007; Dieterich et al, 2009; Vinciguerra et al, 2010; Lacroix and Maddox, 2012; Iolascon et al, 2013; Liljeholm et al, 2013; Ferrer et al, 2014; Ganem et al, 2014, 2007; Tormos et al, 2015).
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