The polarity-induced force imbalance inCaenorhabditis elegansembryos is caused by asymmetric binding rates of dynein to the cortex

Author:

Rodriguez-Garcia Ruddi1,Chesneau Laurent1,Pastezeur Sylvain1,Roul Julien1,Tramier Marc1,Pécréaux Jacques1

Affiliation:

1. CNRS, Univ Rennes, IGDR (Institute of Genetics and Development of Rennes)–UMR 6290, F-35000 Rennes, France

Abstract

During asymmetric cell division, the molecular motor dynein generates cortical pulling forces that position the spindle to reflect polarity and adequately distribute cell fate determinants. In Caenorhabditis elegans embryos, despite a measured anteroposterior force imbalance, antibody staining failed to reveal dynein enrichment at the posterior cortex, suggesting a transient localization there. Dynein accumulates at the microtubule plus ends, in an EBP-2EB–dependent manner. This accumulation, although not transporting dynein, contributes modestly to cortical forces. Most dyneins may instead diffuse to the cortex. Tracking of cortical dynein revealed two motions: one directed and the other diffusive-like, corresponding to force-generating events. Surprisingly, while dynein is not polarized at the plus ends or in the cytoplasm, diffusive-like tracks were more frequently found at the embryo posterior tip, where the forces are higher. This asymmetry depends on GPR-1/2LGNand LIN-5NuMA, which are enriched there. In csnk-1(RNAi) embryos, the inverse distribution of these proteins coincides with an increased frequency of diffusive-like tracks anteriorly. Importantly, dynein cortical residence time is always symmetric. We propose that the dynein-binding rate at the posterior cortex is increased, causing the polarity-reflecting force imbalance. This mechanism of control supplements the regulation of mitotic progression through the nonpolarized dynein detachment rate.

Publisher

American Society for Cell Biology (ASCB)

Subject

Cell Biology,Molecular Biology

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