LC−MS/MS for the Detection of DNA Interstrand Cross-Links Formed by 8-Methoxypsoralen and UVA Irradiation in Human Cells

Abstract

DNA interstrand cross-links (ICLs) are induced by many carcinogens and anitcancer drugs. ICL is a covalent linkage of both strands of DNA, preventing DNA strand separation during transcription and replication; thus, it is extremely cytotoxic in vivo. Psoralen and its derivatives are widely applied for the clinical treatment of several skin diseases and cutaneous T cell lymphoma, and they are also commonly used as model compounds for the study of ICL. Upon UVA photoactivation, 8-methoxypsoralen alkylates both strands of DNA at the 5,6-double bond of thymidines at the 5'-TpA-3' site, generating monoadducts and ICLs. Here we developed a method utilizing HPLC-tandem mass spectrometry, combined with nuclease P1 digestion, to assess the formation of ICL in DNA of human skin melanoma cells exposed to 500 ng/mL 8-methoxypsoralen and UVA irradiation. We were able to quantify ICL, in the form of tetranucleotide, at the level of 1 lesion/10(6) unmodified nucleobases using a low-microgram quantity of DNA. In addition, our results revealed that the formation of ICL increased linearly with the UVA dose. The yield of ICL increased by 15-fold from 4.5 to 76 lesions/10(6) nucleotides when the UV dose was increased from 0.5 to 5 J/cm2. This is the first report of an LC-MS assay for the quantification of DNA interstrand cross-links. The specificity and accuracy of this high-throughput approach are advantageous over other methods for the detection of ICLs formed in vitro and in vivo.