Ubiquitin and cell cycle regulation of Golgi membrane dynamics

Abstract

Partitioning of the Golgi membrane into daughter cells during mammalian cell division occurs through a unique disassembly and reassembly process. Several converging lines of evidence have suggested that monoubiquitination plays an essential role in the regulation of post‐mitotic Golgi membrane fusion. Monoubiquitination, as a regulatory signal, occurs during mitotic Golgi disassembly and is required for subsequent Golgi reassembly. The AAA ATPase p97 and its adapter protein p47 are involved in membrane fusion during post‐mitotic Golgi reassembly. The p97/p47 complex binds to monoubiquitin through the UBA domain of p47, and this interaction is required for p97‐mediated Golgi membrane fusion. Proteasome activity is not involved in either Golgi disassembly or reassembly. We have identified a Golgi‐localized ubiquitin E3 ligase HACE1 which is involved in this process. We have also discovered the p97/p47 binding protein VCIP135 as a deubiquitinating enzyme whose activity is required for post‐mitotic Golgi reassembly. These data suggest that cycles of addition and removal of ubiquitin to and from substrates regulate Golgi membrane dynamics during cell division.