Ubiquitin chain-elongating enzyme UBE2S activates the RING E3 ligase APC/C for substrate priming

The interplay between E2 and E3 enzymes regulates the polyubiquitination of substrates in eukaryotes. Among the several RING-domain E3 ligases in humans, many utilize two distinct E2s for polyubiquitination. For example, the cell cycle regulatory E3, human anaphase-promoting complex/cyclosome (APC/C), relies on UBE2C to prime substrates with ubiquitin (Ub) and on UBE2S to extend polyubiquitin chains. However, the potential coordination between these steps in ubiquitin chain formation remains undefined. While numerous studies have unveiled how RING E3s stimulate individual E2s for Ub transfer, here we change perspective to describe a case where the chain-elongating E2 UBE2S feeds back and directly stimulates the E3 APC/C to promote substrate priming and subsequent multiubiquitination by UBE2C. Our work reveals an unexpected model for the mechanisms of RING E3-dependent ubiquitination and for the diverse and complex interrelationship between components of the ubiquitination cascade. The cell cycle regulatory E3 ligase APC/C cooperates with UBE2C to prime substrates with ubiquitin and UBE2S to extend the ubiquitin chains. Careful analysis reveals that binding of the UBE2S to APC/C accelerates the rate-limiting step of APC/C-UBE2C.