Cancer Research UK London Research Institute, Clare Hall Laboratories, South Mimms, Hertfordshire EN6 3LD, UK.
Curr Biol. 2011 Jul 12;21(13):1152-7. doi: 10.1016/j.cub.2011.05.057. Epub 2011 Jun 23.
Cyclin-dependent kinases (CDKs) play crucial roles in promoting DNA replication and preventing rereplication in eukaryotic cells [1-4]. In budding yeast, CDKs promote DNA replication by phosphorylating two proteins, Sld2 and Sld3, which generates binding sites for pairs of BRCT repeats (breast cancer gene 1 [BRCA1] C terminal repeats) in the Dpb11 protein [5, 6]. The Sld3-Dpb11-Sld2 complex generated by CDK phosphorylation is required for the assembly and activation of the Cdc45-Mcm2-7-GINS (CMG) replicative helicase. In response to DNA replication stress, the interaction between Sld3 and Dpb11 is blocked by the checkpoint kinase Rad53 [7], which prevents late origin firing [7, 8]. Here we show that the two key CDK sites in Sld3 are conserved in the human Sld3-related protein Treslin/ticrr and are essential for DNA replication. Moreover, phosphorylation of these two sites mediates interaction with the orthologous pair of BRCT repeats in the human Dpb11 ortholog, TopBP1. Finally, we show that DNA replication stress prevents the interaction between Treslin/ticrr and TopBP1 via the Chk1 checkpoint kinase. Our results indicate that Treslin/ticrr is a genuine ortholog of Sld3 and that the Sld3-Dpb11 interaction has remained a critical nexus of S phase regulation through eukaryotic evolution.
细胞周期蛋白依赖性激酶(CDKs)在促进真核细胞的 DNA 复制和防止重复制方面起着至关重要的作用[1-4]。在芽殖酵母中,CDKs 通过磷酸化 Sld2 和 Sld3 这两种蛋白来促进 DNA 复制,这两种蛋白在 Dpb11 蛋白中生成 BRCT 重复对(乳腺癌基因 1[BRCA1]C 末端重复)的结合位点[5,6]。由 CDK 磷酸化产生的 Sld3-Dpb11-Sld2 复合物是组装和激活 Cdc45-Mcm2-7-GINS(CMG)复制解旋酶所必需的。在应对 DNA 复制压力时,Sld3 和 Dpb11 之间的相互作用被检查点激酶 Rad53 阻断[7],从而阻止晚期起始点的启动[7,8]。在这里,我们表明 Sld3 中的两个关键 CDK 位点在人类 Sld3 相关蛋白 Treslin/ticrr 中保守,并对 DNA 复制至关重要。此外,这两个位点的磷酸化介导了与人类 Dpb11 同源物 TopBP1 中的同源 BRCT 重复对的相互作用。最后,我们表明,DNA 复制压力通过 Chk1 检查点激酶阻止 Treslin/ticrr 与 TopBP1 之间的相互作用。我们的结果表明,Treslin/ticrr 是 Sld3 的真正同源物,并且 Sld3-Dpb11 相互作用在真核生物进化过程中一直是 S 期调控的关键枢纽。
