Analytical biochemistry
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Analytical biochemistry · Apr 1991
Determination of covalent binding to intact DNA, RNA, and oligonucleotides by intercalating anticancer drugs using high-performance liquid chromatography. Studies with doxorubicin and NADPH cytochrome P-450 reductase.
An HPLC method is described which can determine covalent binding to intact nucleic acid by intercalating anticancer drugs and at the same time remove noncovalently bound intercalated drug. The method uses a column containing a nonporous 2-microns DEAE anion-exchange resin capable of chromatographing nucleic acids greater than 50,000 bases in size in under 1 h. After priming with 1 mg of DNA, the column behaves as an intercalator affinity column, strongly retaining the drug while allowing the nucleic acid to pass through normally. ⋯ DNA inhibited the metabolism of the drug by the enzyme, no covalent binding occurred with RNA, low levels occurred with single-stranded DNA (34 pmol/100 micrograms), and the highest levels were recorded with oligonucleotides (243 pmol/100 micrograms). The assay was sufficiently sensitive to measure covalent binding to DNA extracted from MCF-7 human breast cancer cells treated with 50 microM [14C]doxorubicin (18.6 pmol/100 micrograms). Thus, covalent binding to DNA, RNA, and oligonucleotides by intercalators can be measured quickly (20 min) without the need to either digest the nucleic acid or subject it to long sample preparation techniques.