In vitro and in vivo DNA bonding by the CC-1065 analogue U-73975.

CC-1065, a cyclopropylpyrroloindole (CPI), is a highly potent antitumor DNA-alkylating agent. We have devised a simple method to detect CPI bonding sites on double-stranded DNA (dsDNA). The technique utilizes a modified form of bacteriophage T7 polymerase, Sequenase, to synthesize a radiolabeled nascent strand from dsDNA that has been reacted in vitro with the CC-1065 analogue U-73975 (adozelesin). The reaction products were electrophoresed on sequencing gels containing 8 M urea and visualized by autoradiography. The transit of this DNA polymerase is inhibited at the sites where CPIs are bound to the template strand. Thus, the enzyme stalls or stops at the nucleotide immediately adjacent to the modified base, resulting in the accumulation of DNA strands at these sites and in diminished read-through beyond these sites in a set of CPI-treated DNA molecules. The precise positions of polymerase inhibition can be determined by comparison of CPI-treated and unreacted DNA reactions. This modified dideoxynucleotide sequencing technique has been used to establish the sequence selectivity of U-73975. Approximately 1 kilobase of dsDNA has been analyzed to derive a consensus canonical bonding sequence, 5'(T/A)-T/A-T-A*-(C/G)-(G), where A* is the site of U-73975 alkylation and parentheses denote deoxynucleotide preferences. Noncanonical sites were also found at poly(A) sites. This technique yielded a consensus sequence for U-73975 bonding that is similar to, but not identical with, the published consensus obtained for CC-1065 by a modified Maxam and Gilbert sequencing technique. We have also examined the bonding of [3H]U-73975 to the DNA of viable cultured mammalian cells, using gel electrophoresis and autoradiographic techniques.(ABSTRACT TRUNCATED AT 250 WORDS)