Abstract
Apurinic/apyrimidinic (AP) sites appear in DNA spontaneously and as intermediates of base excision DNA repair. AP sites are noninstructive lesions: they strongly block DNA polymerases, and if bypassed, the nature of the incorporated dNMP is mostly guided by the interactions within the polymerase-DNA active site. Many DNA polymerases follow the "A-rule", preferentially incorporating dAMP opposite to natural AP sites. Methoxyamine (MX), a small molecule, efficiently reacts with the aldehyde moiety of natural AP sites, thereby preventing their cleavage by APEX1, the major human AP endonuclease. MX is currently regarded as a possible sensitizer of cancer cells toward DNA-damaging drugs. To evaluate the mutagenic potential of MX, we have studied the utilization of various dNTPs by five DNA polymerases of different families encountering MX-AP adducts in the template in comparison with the natural aldehydic AP site. The Klenow fragment of Escherichia coli DNA polymerase I strictly followed the A-rule with both natural AP and MX-adducted AP sites. Phage RB69 DNA polymerase, a close relative of human DNA polymerases δ and ε, efficiently incorporated both dAMP and dGMP. DNA polymerase β mostly incorporated dAMP and dCMP, preferring dCMP opposite to the natural AP site and dAMP opposite to the MX-AP site, while DNA polymerase λ was selective for dGMP, apparently via the primer misalignment mechanism. Finally, translesion DNA polymerase κ also followed the A-rule for MX-AP and additionally incorporated dCMP opposite to a natural AP site. Overall, the MX-AP site, despite structural differences, was similar to the natural AP site in terms of the dNMP misincorporation preference but was bypassed less efficiently by all polymerases except for Pol κ.
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