Inhibition of DNA binding of MCM2-7 complex by phosphorylation with cyclin-dependent kinases.

Cyclin-dependent kinase (CDK) that plays a central role in preventing re-replication of DNA phosphorylates several replication proteins to inactivate them. MCM4 in MCM2-7 and RPA2 in RPA are phosphorylated with CDK in vivo. There are inversed correlations between the phosphorylation of these proteins and their chromatin binding. Here, we examined in vitro phosphorylation of human replication proteins of MCM2-7, RPA, TRESLIN, CDC45 and RECQL4 with CDK2/cyclinE, CDK2/cyclinA, CDK1/cyclinB, CHK1, CHK2 and CDC7/DBF4 kinases. MCM4, RPA2, TRESLIN and RECQL4 were phosphorylated with CDKs. Effect of the phosphorylation by CDK2/cyclinA on DNA-binding abilities of MCM2-7 and RPA was examined by gel-shift analysis. The phosphorylation of RPA did not affect its DNA-binding ability but that of MCM4 inhibited the ability of MCM2-7. Change of six amino acids of serine and threonine to alanines in the amino-terminal region of MCM4 rendered the mutant MCM2-7 insensitive to the inhibition with CDK. These biochemical data suggest that phosphorylation of MCM4 at these sites by CDK plays a direct role in dislodging MCM2-7 from chromatin and/or preventing re-loading of the complex to chromatin.

Identification of proteins that may directly interact with human RPA.

RPA, which consisted of three subunits (RPA1, 2 and 3), plays essential roles in DNA transactions. At the DNA replication forks, RPA binds to single-stranded DNA region to stabilize the structure and to assemble other replication proteins. Interactions between RPA and several replication proteins have been reported but the analysis is not comprehensive. We systematically performed the qualitative analysis to identify RPA interaction partners to understand the protein-protein interaction at the replication forks. We expressed in insect cells the three subunits of human RPA, together with one replication protein, which is present at the forks under normal conditions and/or under the replication stress conditions, to examine the interaction. Among 30 proteins examined in total, it was found that at least 14 proteins interacted with RPA. RPA interacted with MCM3-7, MCM-BP and CDC45 proteins among the proteins that play roles in the initiation and the elongation of the DNA replication. RPA bound with TIPIN, CLASPIN and RAD17, which are involved in the DNA replication checkpoint functions. RPA also bound with cyclin-dependent kinases and an amino-terminal fragment of Rb protein that negatively regulates DNA replication. These results suggest that RPA interacts with the specific proteins among those that play roles in the regulation of the replication fork progression.