Ionizing radiation (IR) is an important environmental risk factor for various cancers and also a major therapeutic agent for cancer treatment. Exposure of mammalian cells to IR induces several types of damage to DNA, including double-and single-strand breaks, base and sugar damage, as well as DNA-DNA and DNA-protein crosslinks (DPCs). Little is known regarding the biological consequences of DPCs. Identifying the proteins that become cross-linked to DNA by IR would be an important first step in this regard. We have therefore undertaken a proteomics study to isolate and identify proteins involved in IR-induced DPCs. DPCs were induced in AA8 Chinese hamster ovary or GM00637 human fibroblast cells using 0 -4 gray of ␥-rays under either aerated or hypoxic conditions. DPCs were isolated using a recently developed method, and proteins were identified by mass spectrometry. We identified 29 proteins as being cross-linked to DNA by IR under aerated and/or hypoxic conditions. The identified proteins include structural proteins, actin-associated proteins, transcription regulators, RNA-splicing components, stress-response proteins, cell cycle regulatory proteins, and GDP/GTP-binding proteins. The involvement of several proteins (actin, histone H2B, and others) in DPCs was confirmed by using Western blot analysis. The dose responsiveness of DPC induction was examined by staining one-dimensional SDS-polyacrylamide gels with SYPRO Tangerine followed by analysis using fluorescence imaging. Quantitation of the fluorescence signal indicated no significant difference in total yields of IR-induced DPCs generated under aerated or hypoxic conditions, although differences were observed for several individual protein bands.
We have designed and generated a 90-mer oligonucleotide that contains a single adduct of benzo[a]pyrene diol epoxide (BPDE) and that is fluorescently labeled. The known amount of BPDE adduct in a given length of DNA makes this probe a useful standard for DNA damage assay. The BPDE-90-mer was fluorescently labeled with tetramethylrhodamine to allow for high sensitivity detection with laser-induced fluorescence (LIF). The binding of both double-stranded and single-stranded BPDE-90-mer with three anti-BPDE antibodies was studied using affinity capillary electrophoresis (CE). Formation of antibody complex with BPDE-90-mer results in a shift in migration time from that of the unbound BPDE-90-mer. Affinity CE/LIF studies suggest that antibody 8E11 has high-affinity suitable for immunoassay of BPDE-DNA adducts. A competitive immunoassay using the fluorescent probe and CE/LIF is demonstrated for the analysis of BPDE-DNA adducts in A549 human lung carcinoma cells incubated with 2.5, 5, and 10 microM BPDE for 2 h. The design of the 90-mer probe is flexible to substitute different DNA damage types with relative ease. The fluorescent 90-mer is composed of six shorter oligonucleotides. The sequence of the two center oligonucleotides may be changed depending on the desired DNA lesion measurement. By inserting different damaged oligonucleotides, a variety of DNA damage systems can be investigated using the same CE/LIF approach.
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