Wash and the WASH Regulatory Complex function in Nuclear Envelope budding

Abstract

SUMMARYNuclear envelope budding is a recently described phenomenon wherein large macromolecular complexes can be packaged inside the nucleus and be extruded through the nuclear membranes, completely bypassing nuclear pores. While factors have been identified both as cargos or actively involved in this process, much remains unknown about the molecules that generate the forces and membrane deformations which appear inherent. Using fluorescence and electron microscopy, biochemical and cell biological assays, and genetic perturbations in the Drosophila model, we identify Wash, its regulatory complex, and Arp2/3 as novel players in NE-budding. Surprisingly, Wash’s role in this process is bipotent and, independent of SHRC/Arp2/3, its perturbation disrupts the normal homotypic Lamin A/B meshworks that are necessary for NE-budding to occur. In addition to NE-budding emerging as important in additional cellular processes and organisms, its incredible similarity to herpesvirus egress suggests new avenues for exploration in both normal and disease biology.