APC/C-mediated multiple monoubiquitylation provides an alternative degradation signal for cyclin B1

The anaphase-promoting complex or cyclosome (APC/C) initiates mitotic exit by ubiquitylating cell-cycle regulators such as cyclin B1 and securin. Lys 48-linked ubiquitin chains represent the canonical signal targeting proteins for degradation by the proteasome, but they are not required for the degradation of cyclin B1. Lys 11-linked ubiquitin chains have been implicated in degradation of APC/C substrates, but the Lys 11-chain-forming E2 UBE2S is not essential for mitotic exit, raising questions about the nature of the ubiquitin signal that targets APC/C substrates for degradation. Here we demonstrate that multiple monoubiquitylation of cyclin B1, catalysed by UBCH10 or UBC4/5, is sufficient to target cyclin B1 for destruction by the proteasome. When the number of ubiquitylatable lysines in cyclin B1 is restricted, Lys 11-linked ubiquitin polymers elaborated by UBE2S become increasingly important. We therefore explain how a substrate that contains multiple ubiquitin acceptor sites confers flexibility in the requirement for particular E2 enzymes in modulating the rate of ubiquitin-dependent proteolysis

EDITORIAL

The ubiquitin-proteasome system has emerged in the last decades as a new paradigm in cell physiology. Ubiquitin is found in fundamental levels of cell regulation, as a target for degradation to the proteasome or as a signal that controls protein function in a complex manner. Even though many aspects of the ubiquitin system remain unexplored, the contributions on the field uncover that ubiquitin represents one of the most sophisticated codes in cellular biology. The proteasome is an ATP-dependent protease that degrades a large number of protein substrates in the cell. The proteasome recruits substrates by a number of receptors that interact with polyubiquitin. Recently, it has been shown that one of these receptors, Rpn10, is regulated by monoubiquitination. In this chapter, we show an overview of the central aspects of the pathway and describe the methodology to characterize in vitro the monoubiquitination of proteasome subunits. © 2012 Springer Science+Business Media New York.Peer Reviewe