Iron(II)-induced degradation of antimalarial β-sulfonyl endoperoxides. Evidence for the generation of potentially cytotoxic carbocations

A. M. Szpilman; E. E. Korshin; R. Hoos; G. H. Posner; M. D. Bachi

doi:10.1021/jo001265z

Iron(II)-induced degradation of antimalarial β-sulfonyl endoperoxides. Evidence for the generation of potentially cytotoxic carbocations

A. M. Szpilman, E. E. Korshin, R. Hoos, G. H. Posner, M. D. Bachi

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Abstract

Reactions of antimalarial β-sulfonyl endoperoxides 9 and 10, which, like yingzhaosu A (2), derive from the 2,3-dioxabicyclo[3.3.1]nonane system 3, with iron(II) salts were studied. Product analysis of the iron(II)-induced degradations provided evidence for the intermediacy of carbon-centered cyclohexyl radicals 20 and 31 and their possible oxidation to the corresponding carbocations 21 and 32. It is conceivable that the antimalarial activity of β-sulfonyl endoperoxides of type 5 may derive from alkylation of vital intraparasitic biomolecules by free radicals and/or carbocations, generated within the malaria parasite through a similar iron(II)-induced degradation process.

Original language	English
Pages (from-to)	6531-6540
Number of pages	10
Journal	Journal of Organic Chemistry
Volume	66
Issue number	20
DOIs	https://doi.org/10.1021/jo001265z
State	Published - 5 Oct 2001
Externally published	Yes

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abstract = "Reactions of antimalarial β-sulfonyl endoperoxides 9 and 10, which, like yingzhaosu A (2), derive from the 2,3-dioxabicyclo[3.3.1]nonane system 3, with iron(II) salts were studied. Product analysis of the iron(II)-induced degradations provided evidence for the intermediacy of carbon-centered cyclohexyl radicals 20 and 31 and their possible oxidation to the corresponding carbocations 21 and 32. It is conceivable that the antimalarial activity of β-sulfonyl endoperoxides of type 5 may derive from alkylation of vital intraparasitic biomolecules by free radicals and/or carbocations, generated within the malaria parasite through a similar iron(II)-induced degradation process.",

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AU - Szpilman, A. M.

AU - Korshin, E. E.

AU - Hoos, R.

AU - Posner, G. H.

AU - Bachi, M. D.

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AB - Reactions of antimalarial β-sulfonyl endoperoxides 9 and 10, which, like yingzhaosu A (2), derive from the 2,3-dioxabicyclo[3.3.1]nonane system 3, with iron(II) salts were studied. Product analysis of the iron(II)-induced degradations provided evidence for the intermediacy of carbon-centered cyclohexyl radicals 20 and 31 and their possible oxidation to the corresponding carbocations 21 and 32. It is conceivable that the antimalarial activity of β-sulfonyl endoperoxides of type 5 may derive from alkylation of vital intraparasitic biomolecules by free radicals and/or carbocations, generated within the malaria parasite through a similar iron(II)-induced degradation process.

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Iron(II)-induced degradation of antimalarial β-sulfonyl endoperoxides. Evidence for the generation of potentially cytotoxic carbocations

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