The CRL4B E3 ligase regulates mitosis by recruiting phospho-specific DCAFs

Abstract

AbstractThe cullin-4 paralogs CUL4A and CUL4B assemble E3 ubiquitin ligase complexes regulating multiple chromatin-associated cellular functions. Although they are structurally similar, we found that the unique N-terminal extension of CUL4B is heavily phosphorylated during mitosis, and the phosphorylation pattern is perturbed in the CUL4B-P50L mutation causing X-linked intellectual disability (XLID). Phenotypic characterization and mutational analysis revealed that CUL4B phosphorylation is required for efficient progression through mitosis, controlling spindle positioning and cortical tension. Interestingly, while CUL4B phosphorylation triggers chromatin exclusion, it critically promotes binding to actin regulators and two previously unrecognized, CUL4B-specific DCAFs, LIS1 and WDR1. Indeed, co-immunoprecipitation experiments and biochemical analysis revealed that LIS1 and WDR1 interact with DDB1, but their binding requires the phosphorylated N-terminal domain of CUL4B. Together, our study uncovers previously unrecognized DCAFs relevant for mitosis and brain development that specifically bind CUL4B, but not the CUL4B-P50L patient mutant, by a phosphorylation-dependent mechanism.