Litcius/Paper detail

Cell Cycle-Dependent Switch of TopBP1 Functions by Cdk2 and Akt

Kang Liu, Joshua D. Graves, Yu‐Ju Lee, Fang‐Tsyr Lin, Weei-Chin Lin

2020Molecular and Cellular Biology15 citationsDOIOpen Access PDF

Abstract

Cdk2-dependent TopBP1-treslin interaction is critical for DNA replication initiation. However, it remains unclear how this association is terminated after replication initiation is finished. Here, we demonstrate that phosphorylation of TopBP1 by Akt coincides with cyclin A activation during S and G2 phases and switches the TopBP1-interacting partner from treslin to E2F1, which results in the termination of replication initiation. Premature activation of Akt in G1 phase causes an early switch and inhibits DNA replication. TopBP1 is often overexpressed in cancer and can bypass control by Cdk2 to interact with treslin, leading to enhanced DNA replication. Consistent with this notion, reducing the levels of TopBP1 in cancer cells restores sensitivity to a Cdk2 inhibitor. Together, our study links Cdk2 and Akt pathways to the control of DNA replication through the regulation of TopBP1-treslin interaction. These data also suggest an important role for TopBP1 in driving abnormal DNA replication in cancer.

Topics & Concepts

BiologyOrigin recognition complexDNA replicationEukaryotic DNA replicationPre-replication complexDNA replication factor CDT1Control of chromosome duplicationCell biologyCyclin ACyclin-dependent kinase 2S phaseCell cycleReplication factor CMolecular biologyDNACyclin-dependent kinaseGeneticsPhosphorylationProtein kinase ACancerDNA Repair MechanismsMicrotubule and mitosis dynamicsCancer Genomics and Diagnostics