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National Institute of Environmental Health Sciences

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Your Environment. Your Health.

Publication Detail

Title: Roles of translesion synthesis DNA polymerases in the potent mutagenicity of tobacco-specific nitrosamine-derived O2-alkylthymidines in human cells.

Authors: Weerasooriya, Savithri; Jasti, Vijay P; Bose, Arindam; Spratt, Thomas E; Basu, Ashis K

Published In DNA Repair (Amst), (2015 Nov)

Abstract: The tobacco-specific nitrosamine 4-(methylnitrosamino)-1-(3-pyridyl)-1-butanone (NNK) is a potent human carcinogen. Metabolic activation of NNK generates a number of DNA adducts including O(2)-methylthymidine (O(2)-Me-dT) and O(2)-[4-(3-pyridyl)-4-oxobut-1-yl]thymidine (O(2)-POB-dT). To investigate the biological effects of these O(2)-alkylthymidines in humans, we have replicated plasmids containing a site-specifically incorporated O(2)-Me-dT or O(2)-POB-dT in human embryonic kidney 293T (HEK293T) cells. The bulkier O(2)-POB-dT exhibited high genotoxicity and only 26% translesion synthesis (TLS) occurred, while O(2)-Me-dT was less genotoxic and allowed 55% TLS. However, O(2)-Me-dT was 20% more mutagenic (mutation frequency (MF) 64%) compared to O(2)-POB-dT (MF 53%) in HEK293T cells. The major type of mutations in each case was targeted T → A transversions (56% and 47%, respectively, for O(2)-Me-dT and O(2)-POB-dT). Both lesions induced a much lower frequency of T → G, the dominant mutation in bacteria. siRNA knockdown of the TLS polymerases (pols) indicated that pol η, pol ζ, and Rev1 are involved in the lesion bypass of O(2)-Me-dT and O(2)-POB-dT as the TLS efficiency decreased with knockdown of each pol. In contrast, MF of O(2)-Me-dT was decreased in pol ζ and Rev1 knockdown cells by 24% and 25%, respectively, while for O(2)-POB-dT, it was decreased by 44% in pol ζ knockdown cells, indicating that these TLS pols are critical for mutagenesis. Additional decrease in both TLS efficiency and MF was observed in cells deficient in pol ζ plus other Y-family pols. This study provided important mechanistic details on how these lesions are bypassed in human cells in both error-free and error-prone manner.

PubMed ID: 26460881 Exiting the NIEHS site

MeSH Terms: Carcinogens/toxicity*; DNA Adducts/chemical synthesis; DNA Damage*; DNA-Directed DNA Polymerase/genetics; DNA-Directed DNA Polymerase/physiology*; Gene Knockdown Techniques; HEK293 Cells; Humans; Mutagenesis/drug effects; Mutagens/toxicity*; Mutation; Nitrosamines/toxicity*; RNA, Small Interfering/genetics; Tobacco/chemistry*

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