Human RNA polymerase II is partially blocked by DNA adducts derived from tumorigenic benzo[c]phenanthrene diol epoxides: relating biological consequences to conformational preferences

doi:10.1093/nar/gkg771

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Nucleic Acids Research, 2003, Vol. 31, No. 20 6004-6015
© 2003 Oxford University Press

Human RNA polymerase II is partially blocked by DNA adducts derived from tumorigenic benzo[c]phenanthrene diol epoxides: relating biological consequences to conformational preferences

Thomas M. Schinecker, Rebecca A. Perlow, Suse Broyde, Nicholas E. Geacintov¹ and David A. Scicchitano^*

Department of Biology and ¹ Department of Chemistry, New York University, 100 Washington Square East, MC 5181, New York, NY 10003, USA

*To whom correspondence should be addressed: Tel: +1 212 998 8229; Fax: +1 212 995 4015; Email: das2{at}nyu.edu

Environmental polycyclic aromatic hydrocarbons (PAHs) are metabolicallyactivated to diol epoxides that can react with DNA, resultingin covalent modifications to the bases. The (+)- and (–)-3,4-dihydroxy-1,2-epoxy-1,2,3,4-tetrahydro-benzo[c]phenanthrene(anti-BPhDE) isomers are diol epoxide metabolites of the PAHbenzo[c]phenanthrene (BPh). These enantiomers readily reactwith DNA at the N⁶ position of adenine, forming bulky (+)-1R-or (–)-1S-trans-anti-[BPh]-N⁶-dA adducts. Transcription-couplednucleotide excision repair clears such bulky adducts from cellularDNA, presumably in response to RNA polymerase transcriptioncomplexes that stall at the bulky lesions. Little is known aboutthe effects of [BPh]-N⁶-dA lesions on RNA polymerase II, hence,the behavior of human RNA polymerase II was examined at theseadducts. A site-specific, stereochemically pure [BPh]-N⁶-dAadduct was positioned on the transcribed or non-transcribedstrand of a DNA template with a suitable promoter for RNA polymeraseII located upstream from the lesion. Transcription reactionswere then carried out with HeLa nuclear extract. Each [BPh]-dAisomer strongly impeded human RNA polymerase II progressionwhen it was located on the transcribed strand; however, a smallbut significant degree of lesion bypass occurred, and the extentof polymerase blockage and bypass was dependent on the stereochemistryof the adduct. Molecular modeling of the lesions supports theidea that each adduct can exist in two orientations within thepolymerase active site, one that permits nucleotide incorporationand another that blocks the RNA polymerase nucleotide entrychannel, thus preventing base incorporation and causing thepolymerase to stall or arrest.

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