Abstract

DNA polymerase kappa (Pol{kappa}) has multiple cellular roles such as translesion DNA synthesis, replication of repetitive sequences and nucleotide excision repair. However, the mechanisms regulating Pol{kappa}s cellular activities are unknown. Since all polymerases insert the canonical deoxynucleotide triphosphates, it is difficult to determine which polymerase is active at a particular genomic site. To counter this difficulty, we utilized the selective Pol{kappa} substrate, N2-(4-ethynylbenyl)-2-deoxyguanosine (EBndG), as bait to capture proteins associated with Pol{kappa} synthesized DNA. Here we show that, Pol{kappa} is active in the nucleolus and Pol{kappa} synthesized DNA are enriched with nucleolar proteins. Exposure of cells to benzo[a]pyrene diol epoxide (BPDE) induced hallmarks of nucleolar stress, increased Pol{kappa} stability and nucleolar activity. Other agents that induce nucleolar stress such as mitomycin C, cisplatin and actinomycin D also increased Pol{kappa}s nucleolar activity. The Pol{kappa} activity was cell-cycle independent and dependent on PCNA ubiquitination. In addition, we identified that the expression and activity of Pol{kappa} is regulated by the polycomb complex protein Ring Finger Protein 2 (RNF2) and by poly(ADP)-ribose polymerase 1 (PARP1) catalyzed PARylation. This study provides insight into the novel role of Pol{kappa} in ribosomal RNA synthesis, in maintaining ribosomal DNA integrity after DNA damage thus protecting the cells from nucleolar stress.