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Merck
CN
  • Reversion of structure-activity relationships of antitumor platinum complexes by acetoxime but not hydroxylamine ligands.

Reversion of structure-activity relationships of antitumor platinum complexes by acetoxime but not hydroxylamine ligands.

Molecular pharmacology (2006-10-20)
Stefanie Zorbas-Seifried, Michael A Jakupec, Nikolay V Kukushkin, Michael Groessl, Christian G Hartinger, Olga Semenova, Haralabos Zorbas, Vadim Yu Kukushkin, Bernhard K Keppler
摘要

The presence of cis-configured exchangeable ligands has long been considered a prerequisite for antitumor activity of platinum complexes, but over the past few years, several examples violating this structure-activity relationship have been recognized. We report here on studies with the geometric isomers of [PtCl2(acetoxime)2], cis-[dichlorobis(acetoxime)platinum(II)] [1 (cis)] and trans-[dichlorobis(acetoxime)platinum(II)] [2 (trans)], as well as those of [PtCl2(hydroxylamine)2], cis-[dichlorobis(hydroxylamine)platinum(II)] [3 (cis)] and trans-[dichlorobis(hydroxylamine)platinum(II)] [4 (trans)]. We found that 2 (trans)is 16 times more cytotoxic than 1 (cis) and as cytotoxic as cisplatin in cisplatin-sensitive ovarian carcinoma cells (CH1). Moreover, 2 (trans) is 15 times more cytotoxic than either cisplatin or 1 (cis) in intrinsically cisplatin-resistant colon carcinoma cells (SW480). Thus, compound 2 (trans) represents a novel type of active platinum(II) complexes of the trans geometry, whereas the hydroxylamine-containing complexes conform to the classic structure-activity relationships. The reactivity of the compounds toward dGMP and DNA and their capacity to alter the structure of double-stranded DNA and form interstrand cross-links were studied by capillary electrophoresis and gel electrophoresis. The slow binding of 2 (trans) to dGMP (tau(1/2) = 50 h versus 8.9 h in the case of cisplatin), the low reactivity toward DNA, the comparatively small impact on DNA secondary structure, and the lack of detectable interstrand cross-linking suggest a mode of action fundamentally different from that of cisplatin. Implications of our findings for the minimal structural requirements (e.g., planarity around the nitrogen donor atom and/or ramified aliphatic moiety attached to the latter) of active trans-configured platinum complexes are discussed.

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Sigma-Aldrich
丙酮肟, 98%
Sigma-Aldrich
丙酮肟, purum, ≥98.0% (GC)
Sigma-Aldrich
丙酮肟, Vetec, reagent grade, 98%