Human CDK2 inhibition modifies the dynamics of chromatin-bound minichromosome maintenance complex and replication protein A

Abstract

Minichromosome maintenance (MCM) proteins form a complex and possess helicase activity to unwind the DNA duplex and establish a replication fork. To assure that origins only fire once per cell cycle, the MCM complex is removed from chromatin and inactivated as cells exit S phase. In this report, we demonstrate that CDK2 depletion in human cells leads to an overall phosphorylation defect at mitosis with increased rereplication, correlated with the accumulation of chromatin-bound MCM proteins. We show that CDK2 suppression results in decreased MCM4 phosphorylation at multiple serine and threonine sites. In addition, CDK2 inhibition induces an increase in chromatin-bound replication protein A (RPA) which should bind to single-stranded DNA regions, possibly establishing a replication intermediate that activates the ATR cascade. Finally, we observe that loss of CDK2 function in G1 delays replication initiation while it promotes rereplication in G2/M. Thus, by modulating the phospho-status of MCM4 and regulating origin firing, S phase CDK2 appears to be an integrated component of cellular machinery required for temporally controlling replication activity and maintaining genomic stability. ©2005 Landes Bioscience.