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Polarized Dishevelled dissolution and condensation drives embryonic axis specification in oocytes

Authors: 
Swartz Z, Tan TH, Perillo M, Fakhri N, Wessel GM, Wikramanayake A, Cheeseman IM
Citation: 
bioRxiv. 2021;[preprint] doi:10.1101/2021.05.17.444558
Abstract: 
The organismal body axes that are formed during embryogenesis are intimately linked to intrinsic asymmetries established at the cellular scale in oocytes. Here, we report an axis-defining event in meiotic oocytes of the sea star Patiria miniata. Dishevelled is a cytoplasmic Wnt pathway effector required for axis development in diverse species, but the mechanisms governing its function and distribution remain poorly defined. Using time-lapse imaging, we find that Dishevelled localizes uniformly to puncta throughout the cell cortex in Prophase I-arrested oocytes, but becomes enriched at the vegetal pole following meiotic resumption through a dissolution-condensation mechanism. This process is driven by an initial disassembly phase of Dvl puncta, followed by selective reformation of Dvl assemblies at the vegetal pole. Rather than being driven by Wnt signaling, this localization behavior is coupled to meiotic cell cycle progression and influenced by Lamp1+ endosome association and Frizzled receptors pre-localized within the oocyte cortex. Our results reveal a cell cycle-linked mechanism by which maternal cellular polarity is transduced to the embryo through spatially-regulated Dishevelled dynamics.
Epub: 
Not Epub
Organism or Cell Type: 
Patiria miniata (sea star)
Delivery Method: 
microinjection