Abstract

The long-term treatment of tamoxifen (TAM), widely used for adjuvant chemotherapy and chemoprevention for breast cancer, increases a risk of developing endometrial cancer. A high frequency of K-ras mutations has been observed in the endometrium of women treated with TAM. Human DNA polymerase (pol) eta and pol kappa are highly expressed in the reproductive organs and are associated with translesion synthesis past bulky DNA adducts. To explore the miscoding properties of alpha-(N2-deoxyguanosinyl)tamoxifen (dG-N2-TAM), a major TAM-DNA adduct, site-specifically modified oligodeoxynucleotides containing a single diastereoisomer of trans or cis forms of dG-N2-TAM were prepared by phosphoramidite chemical procedure and used as templates. The primer extension reaction catalyzed by pol kappa deltaC, a truncated form of pol kappa, extended more efficiently past the adduct than that of pol eta by incorporating dCMP, a correct base, opposite the adduct. With pol eta, all diastereoisomers of dG-N2-TAM promoted small amounts of direct incorporation of dAMP and deletions. With pol kappa deltaC, dG-N2-TAM promoted small amounts of dTMP and/or dAMP incorporations and deletions. The miscoding properties varied depending on the diastereoisomer of dG-N2-TAM adducts and the DNA pol used. Steady-state kinetic studies were also performed using either the nonspecific sequence or the K-ras gene sequence containing a single dG-N2-TAM at the second base of codon 12. With pol eta, the bypass frequency past the dA x dG-N2-TAM pair positioned in the K-ras sequence was only 2.3 times lower than that for the dC x dG-N2-TAM pair, indicating that dG-N2-TAM in the K-ras sequence has higher miscoding potential than that in the nonspecific sequence. However, with pol kappa deltaC, the bypass frequency past the dC x dG-N2-TAM pair was higher than that of the dT x dG-N2-TAM pair in both sequences. The properties of pol eta and pol kappa are consistent with the mutagenic events attributed to TAM-DNA adducts.

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