PCNA recruits cohesin loader Scc2/NIPBL to ensure sister chromatid cohesion

Abstract

AbstractSister chromatid cohesion is essential for faithful chromosome segregation and genome duplication during cell division. Failure to establish cohesion during S phase by the ring-shaped multiprotein complex cohesin leads to genomic instability1-4. Replisome-associated proteins are required to generate cohesion by two independent pathways5. One mediates conversion of cohesins bound to unreplicated DNA ahead of replication forks into cohesive entities behind them, while the second promotes cohesin de novo loading onto newly-replicated DNAs6. The latter process depends on the cohesin loader Scc2/NIPBL and the alternative PCNA loader CTF18-RFC. However, the precise mechanism of de novo cohesin loading during replication is unknown. Here we show that PCNA physically recruits yeast cohesin loader Scc2 via its C-terminal PCNA-interacting protein motif. Binding to PCNA is crucial, as scc2-pip mutant deficient in Scc2-PCNA interaction is defective in cohesion when combined with replisome mutants of the cohesin conversion pathway. Moreover, scc2-pip mutant becomes inviable without its partner Scc4/MAU2 that localizes cohesin loader to centromeres. Importantly, the role of NIPBL recruitment to PCNA for cohesion generation is conserved in vertebrate cells. Our results demonstrate that PCNA, the maestro of replication-linked functions, is also crucially involved in the cohesion establishment through de novo cohesin loading onto replicated DNA.