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  • Title: Activity of Escherichia coli DNA-glycosylases on DNA damaged by methylating and ethylating agents and influence of 3-substituted adenine derivatives.
    Author: Tudek B, Van Zeeland AA, Kusmierek JT, Laval J.
    Journal: Mutat Res; 1998 Mar; 407(2):169-76. PubMed ID: 9637245.
    Abstract:
    Methylating and ethylating agents are used in the chemical industry and produced during tobacco smoking. They generate DNA base damage whose role in cancer induction has been documented. Alkylated bases are repaired by the base excision repair pathway. We have established the repair efficiency of methylated and ethylated bases by various Escherichia coli repair proteins, namely 3-methyladenine-DNA-glycosylase I (TagA protein), which excises 3-methyladenine and 3-methylguanine, 3-methyladenine-DNA-glycosylase II (AlkA protein), which has a broad substrate specificity including 3- and 7-alkylated purines and the formamidopyrimidine(Fapy)-DNA-glycosylase (Fpg protein) repairing imidazole ring-opened 7-methylguanine. The comparison of the Km values of these various enzymes showed that methylated bases were excised more efficiently than ethylated bases. Several 3-alkyladenine derivatives have been synthesized and examined for their ability to inhibit the activity of the various repair proteins. We have shown that 3-ethyl-, 3-propyl-, 3-butyl- and 3-benzyladenine were much more efficient inhibitors of TagA protein than 3-methyladenine. The inhibitory effect was increased with the increase of the size of alkyl-group and IC50 for 3-benzyladenine was 0.4 +/- 0.1 microM as compared to 1.5 +/- 0.3 mM for 3-methyladenine. These compounds inhibited neither the AlkA protein nor human 3-methyladenine-DNA-glycosylase (ANPG protein). Moreover, 3-hydroxyethyladenine did not affect the activity of any of these enzymes. Taken together, these results suggest that hydrophobic interactions are involved in the mechanism of inhibition and/or recognition and excision of alkylated purines by TagA protein.
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