Zebrafish yolk syncytial nuclei migrate along a dynamic microtubule network

Abstract

AbstractIn teleosts, the yolk syncytial layer is a multinucleate syncytium that functions as an extraembryonic signaling center to pattern the mesendoderm, coordinate morphogenesis and supply nutrients to the embryo. The zebrafish is an excellent system for studying this morphogenetically active tissue. The external yolk syncytial nuclei (e-YSN) undergo microtubule dependent epiboly movements that distribute the nuclei over the yolk. How e-YSN epiboly proceeds, and what role the yolk microtubule network plays is not understood but currently it is proposed that e-YSN are pulled vegetally as the microtubule network shortens from the vegetal pole. Data from our live imaging studies suggest that the yolk microtubule network is dismantled from the animal and vegetal regions and show that a region of stabilized microtubules forms before nuclear migration begins. e-YSN do not appear to be pulled vegetally but rather move along a dynamic microtubule network. We also show that overexpression of the KASH domain of Syne2a impairs e-YSN movement, implicating the LINC complex in e-YSN migration. This work provides new insights into the role of microtubules in morphogenesis of an extraembryonic tissue.Summary StatementAnalysis of yolk syncytial nuclear migration during zebrafish epiboly reveals that nuclei migrate along and largely beneath a dynamically yolk microtubule network.