Participation of mouse DNA polymerase ι in strand-biased mutagenic bypass of UV photoproducts and suppression of skin cancer

Abstract

DNA polymerase ι (pol ι) is a conserved Y family enzyme that is implicated in translesion DNA synthesis (TLS) but whose cellular functions remain uncertain. To test the hypothesis that pol ι performs TLS in cells, we compared UV-induced mutagenesis in primary fibroblasts derived from wild-type mice to mice lacking functional pol η, pol ι, or both. A deficiency in mouse DNA polymerase η (pol η) enhanced UV-induced Hprt mutant frequencies. This enhanced UV-induced mutagenesis and UV-induced mutagenesis in wild-type cells were strongly diminished in cells deficient in pol ι, indicating that pol ι participates in the bypass of UV photoproducts in cells. Moreover, a clear strand bias among UV-induced base substitutions was observed in wild-type cells that was diminished in pol η- and pol ι-deficient mouse cells and abolished in cells deficient in both enzymes. These data suggest that these enzymes bypass UV photoproducts in an asymmetric manner. To determine whether pol ι status affects cancer susceptibility, we compared the UV-induced skin cancer susceptibility of wild-type mice to mice lacking functional pol η, pol ι, or both. Although pol ι deficiency alone had no effect, UV-induced skin tumors in pol η-deficient mice developed 4 weeks earlier in mice concomitantly deficient in pol ι. Collectively, these data reveal functions for pol ι in bypassing UV photoproducts and in delaying the onset of UV-induced skin cancer.