CIZ1 is a nuclear matrix protein that cooperates with cyclin A/CDK2 to promote mammalian DNA replication. We show here that cyclin A/CDK2 also negatively regulates CIZ1 activity via phosphorylation at threonines 144, 192, and 293. Phosphomimetic mutants do not promote DNA replication in cell-free and cell-based assays, and also have a dominant negative effect on replisome formation at the level of PCNA recruitment. Phosphorylation blocks direct interaction with cyclin A/CDK2, and recruitment of endogenous cyclin A to the nuclear matrix. In contrast, phosphomimetic CIZ1 retains nuclear matrix binding capability, and interaction with CDC6 is not affected. Phospho-threonine 192-specific antibodies confirm that CIZ1 is phosphorylated during S-phase and G2, and show that phosphorylation at this site occurs at post-initiation concentrations of cyclin A/CDK2. Together the data suggest that CIZ1 is a kinase sensor that promotes initiation of DNA replication at low kinase levels, when in a hypophosphorylated state that is permissive for cyclin A-CDK2 interaction and delivery to licensed origins, but blocks delivery at higher kinase levels when it is itself phosphorylated
Is data on this page outdated, violates copyrights or anything else? Report the problem now and we will take corresponding actions after reviewing your request.