Cytokinesis occurs at the end of mitosis due to the ingression of a contractile ring that cleaves the daughter cells. The core machinery regulating this crucial process is conserved among metazoans. Multiple pathways control ring assembly, but their contribution in different cell types is not known. We found that in the C. elegans embryo, AB and P1 cells fated to be somatic tissue and germline, respectively, have different cytokinesis kinetics supported by distinct myosin levels and organization. Through perturbation of RhoA or polarity regulators and the generation of tetraploid strains, we found that ring assembly is controlled by multiple fate-dependent factors that include myosin-levels, and mechanisms that respond to cell size. Active Ran coordinates ring position with the segregating chromatids in HeLa cells by forming an inverse gradient with importins that control the cortical recruitment of anillin. We found that the Ran pathway regulates anillin in AB cells, but functions differently in P1 cells. We propose that ring assembly delays in P1 cells caused by low myosin and Ran signaling coordinate the timing of ring closure with their somatic neighbours.
Diverse mechanisms regulate contractile ring assembly for cytokinesis in the two-cell C. elegans embryo
Authors who contributed equally to the work
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- Funder(s): Natural Sciences and Engineering Research Council of Canada
- Award Id(s): RGPIN-04161-2017
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- Award Group:
- Funder(s): Office of Research Infrastructure Programs, National Institutes of Health
- Award Id(s): P40 OD010440
- Funder(s):
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Imge Ozugergin, Karina Mastronardi, Chris Law, Alisa Piekny; Diverse mechanisms regulate contractile ring assembly for cytokinesis in the two-cell C. elegans embryo. J Cell Sci 2022; jcs.258921. doi: https://doi.org/10.1242/jcs.258921
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