Abstract
Switching between replicative and translesion synthesis (TLS) DNA polymerases are crucial events for the completion of genomic DNA synthesis when the replication machinery encounters lesions in the DNA template. In eukaryotes, the translesional DNA polymerase η (Polη) plays a central role for accurate bypass of cyclobutane pyrimidine dimers, the predominant DNA lesions induced by ultraviolet irradiation. Polη deficiency is responsible for a variant form of the Xeroderma pigmentosum (XPV) syndrome, characterized by a predisposition to skin cancer. Here, we show that the FF483–484 amino acids in the human Polη (designated F1 motif) are necessary for the interaction of this TLS polymerase with POLD2, the B subunit of the replicative DNA polymerase δ, both in vitro and in vivo. Mutating this motif impairs Polη function in the bypass of both an N-2-acetylaminofluorene adduct and a TT-CPD lesion in cellular extracts. By complementing XPV cells with different forms of Polη, we show that the F1 motif contributes to the progression of DNA synthesis and to the cell survival after UV irradiation. We propose that the integrity of the F1 motif of Polη, necessary for the Polη/POLD2 interaction, is required for the establishment of an efficient TLS complex.
Highlights
Lesions that are continuously formed on cellular DNA upon exposure to genotoxic agents impede the progression of the replicative DNA polymerases
Using a yeast two-hybrid assay (Y2H) we tested the ability of Pol fused to the GAL4-activation domain to interact with each of the four Pol␦ subunits fused to the GAL4DNA binding domain and found that only POLD2 interacts with Pol
Further mutational analysis within the TSLESFF stretch revealed that the FF motif (FF483–484, designated F1) within this region is essential for the binding to POLD2 (Supplementary Figure S1A and Figure 1C)
Summary
Lesions that are continuously formed on cellular DNA upon exposure to genotoxic agents impede the progression of the replicative DNA polymerases. PCNA, the processivity factor of the replicative polymerases, located at stalled replication forks is monoubiquitinated by the Rad ubiquitin ligase [1,2]. This posttranslational modification promotes the recruitment of Yfamily TLS polymerases (Pol, Pol, Pol and Rev1) by increasing their affinity for PCNA [3,4,5,6,7,8] and their residence time at sites of DNA damage [9]. Recent structural studies provide evidence that Rev, Pol and Pol DNA polymerases cooperate within a megatranslesion polymerase complex [13,14]
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