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JW Lown, CC Hanstock, RD Bradley and DG Scraba
The interactions of the low cardiotoxic antitumor agents 1,4-dihydroxy- 5,8-bis[[2-[(2-hydroxyethyl)amino]ethyl]amino]-9, 10-anthracenedione (mitoxantrone) and 9,10-anthracenedicarboxaldehyde bis[(4,5-dihydro-1H- imidazoyl-2-yl)hydrazone] (bisantrene) with pBR322 and PM2 DNA have been examined by electron microscopy. Direct evidence was obtained for intercalative binding of both drugs, with mitoxantrone causing a 13% average length increase in pBR322 corresponding to approximately 580 drug molecules per circle at saturation and bisantrene causing an 11% increase in length corresponding to approximately 480 drug molecules bound per circle. Considerations of the known GC preference for non- nearest neighbor binding of the drugs and inspection of the known sequence of pBR322 suggest that the available intercalation sites are occupied and that additional external electrostatic binding of the cationic drugs also occurs. An apparent difference in behavior of mitoxantrone as compared with that of bisantrene in causing no net increase in length of supercoiled pBR322 was shown to be attributable to an offsetting compaction due to extensive supercoiling by mitoxantrone molecules. This conclusion was confirmed by independent experiments with PM2 covalently closed-circular DNA--both native, negatively supercoiled and relaxed--with calf thymus topoisomerase, using ethidium for comparison. Ethidium caused a 21.3 +/- 3.6% length increase in nicked, open-circular PM2-DNA, or 2100 molecules bound per 10,300 base pairs. Mitoxantrone caused a 16.6% length increase in nicked PM2-DNA equivalent to approximately 1700 drug molecules per circle. Electron microscopic measurements on relaxed PM2-DNA with progressively increasing proportions of mitoxantrone (from 1.4:1 to 14:1 drug molecules per base pair) revealed the onset of formation of lacelike networks of DNA circles linked together. This phenomenon, which is not produced by bisantrene, is attributed to inter-DNA links by the charged side arms of mitoxantrone and is in accord with previous reports that mitoxantrone causes severe compaction and distortion of chromatin. Electron microscopic examination of the interaction of six additional mitoxantrone derivatives, two of which produced lacelike DNA networks, revealed strict structural requirements for this phenomenon.
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