Abstract
Proliferating cell nuclear antigen (PCNA) is a sliding clamp that acts as a central co-ordinator for mismatch repair (MMR) as well as DNA replication. Loss of Elg1, the major subunit of the PCNA unloader complex, causes over-accumulation of PCNA on DNA and also increases mutation rate, but it has been unclear if the two effects are linked. Here we show that timely removal of PCNA from DNA by the Elg1 complex is important to prevent mutations. Although premature unloading of PCNA generally increases mutation rate, the mutator phenotype of elg1Δ is attenuated by PCNA mutants PCNA-R14E and PCNA-D150E that spontaneously fall off DNA. In contrast, the elg1Δ mutator phenotype is exacerbated by PCNA mutants that accumulate on DNA due to enhanced electrostatic PCNA–DNA interactions. Epistasis analysis suggests that PCNA over-accumulation on DNA interferes with both MMR and MMR-independent process(es). In elg1Δ, over-retained PCNA hyper-recruits the Msh2–Msh6 mismatch recognition complex through its PCNA-interacting peptide motif, causing accumulation of MMR intermediates. Our results suggest that PCNA retention controlled by the Elg1 complex is critical for efficient MMR: PCNA needs to be on DNA long enough to enable MMR, but if it is retained too long it interferes with downstream repair steps.
Highlights
Maintenance of genome stability requires accurate replication of DNA coupled with constant surveillance by the repair machinery
By isolating and analysing Proliferating cell nuclear antigen (PCNA) mutants with particular properties, we found that PCNA over-retained on DNA after replication is the cause of the increased mutation rate in elg1
We further analyzed the effect of PCNA accumulation on mismatch repair (MMR), and found that PCNA over-retained on DNA in elg1 over-recruits the Msh2–Msh6 complex to DNA and leads to hyper-accumulation of MMR intermediate Mlh1-Pms1 foci
Summary
Maintenance of genome stability requires accurate replication of DNA coupled with constant surveillance by the repair machinery. PCNA is important for mismatch repair (MMR) and required at multiple steps during the MMR process [2,3,4,5]. How PCNA regulation affects MMR is not fully understood It is unknown if PCNA residence time on DNA is important for MMR. PCNA is a ring-shaped homotrimeric complex that encircles DNA to act as a sliding clamp, ensuring processivity of DNA polymerases. It operates as a platform for recruitment of numerous other proteins involved in DNA replication, DNA damage repair, mismatch repair, and chromatin structure and assembly [1]. The role of the Elg1-RLC in PCNA unloading appears to be conserved in humans, since ATAD5 (the mammalian ortholog of Elg1) is required for proper removal of PCNA from chromatin in human cell lines [13,14]
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