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KMID : 0043320120350091629
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Archives of Pharmacal Research
2012 Volume.35 No. 9 p.1629 ~ p.1637
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Studies on activation mechanism of a mitomycin dimer, 7-N,7¡Ç-N¡Ç-(1¡È,2¡È-dithiepanyl-3¡È,7¡È-dimethylenyl)bismitomycin C
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Kim Jae-Jin
Kim Hyoung-Rae
Lee Sang-Hyup
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Abstract
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We report the studies on nucleophilic activation and DNA alkylation of a cyclic disulfide mitomycin dimer, 7-N,7¡Ç-N¡Ç-(1¡È,2¡È-dithiepanyl-3¡È,7¡È-dimethylenyl)bismitomycin C (6) along with a diol mitomycin dimer, 7-N,7¡Ç-N¡Ç-(2¡È,6¡È-dihydroxy-1¡È,7¡È-heptanediyl)bismitomycin C (7). We wished to see if disulfide mitomycin 6 undergoes efficient nucleophilic activation and corresponding formation of DNA interstrand cross-link (DNA ISC) products compared to diol mitomycin 7. Mitomycin 6 is a dimer connected by a seven-membered cyclic disulfide (a 1,2-dithiepane) linker, and mitomycin 7 is also a dimer containing 2,6-dihydroxyheptane linker that was employed as a reference one to identify the effect of disulfide unit in 6. Through kinetic studies using solvolysis reaction, we found that 6 underwent much faster nucleophilic activation by Et3P compared to 7, and that the enhanced activation rates were induced by the disulfide unit in 6. These findings led us to propose a nucleophilic activation mechanism for 6. We further demonstrated that 6 produced much higher levels of DNA ISC (86%) by the action of Et3P compared with 7 (5%) and 1 (4%). Therefore, we have concluded that 6 was highly efficient for nucleophilic activation and DNA ISC formation due to the key role of cyclic disulfide unit in 6.
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KEYWORD
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Disulfide mitomycin, 1, 2-Dithiepane, Nucleophilic activation, DNA interstrand cross-link, Antitumor agent
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