Electrochemical, Chemical and Enzymatic Oxidations of Phenothiazines

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Blankert, B. and Hayen, H. and Leeuwen van, S.M. and Karst, U. and Bodoki, E. and Lotrean, S. and Sandulescu, R. and Mora Diaz, N. and Dominguez, O. and Arcos, J. and Kauffmann, J.-M. (2005) Electrochemical, Chemical and Enzymatic Oxidations of Phenothiazines. Electroanalysis, 17 (17). pp. 1501-1510. ISSN 1040-0397

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Abstract:The oxidation of several phenothiazine drugs (phenothiazine, promethazine hydrochloride, promazine hydrochloride, trimeprazine hydrochloride and ethopropazine hydrochloride) has been carried out in aqueous acidic media by electrochemical, chemical and enzymatic methods. The chemical oxidation was performed in acetic acid with hydrogen peroxide or in formate buffers using persulfate. The enzymatic oxidation was performed in acetate or ammonium formate buffer by the enzyme horseradish peroxidase in the presence of H2O2. Molecules with, in the lateral chain, two carbon atoms (2C) separating the ring nitrogen and the terminal nitrogen, showed two parallel oxidation pathways, that is (i) formation of the corresponding sulfoxide and (ii) cleavage of the lateral chain with liberation of phenothiazine (PHZ) oxidized products (PHZ sulfoxide and PHZ quinone imine). Molecules with three carbon atoms (3C) separating the two nitrogens were oxidized to the corresponding sulfoxide. The chemical oxidation of all the studied molecules by hydrogen peroxide resulted in the corresponding sulfoxide with no break of the lateral chain. Oxidation by persulfate yielded, for the 3C derivatives, only the corresponding sulfoxide, but it produced cleavage of the lateral chain for the 2C derivatives. The origin of the distinct oxidation pattern between 2C and 3C molecules might be related to steric effects due to the lateral chain. The data are of interest in drug metabolism studies, especially for the early search. In the case of 2C phenothiazines, the results predict the possibility of an in vivo cleavage of the lateral chain with liberation of phenothiazine oxidized products which are known to produce several adverse side effects.
Item Type:Article
Copyright:© 2005 WILEY-VCH
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Science and Technology (TNW)
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Link to this item:http://purl.utwente.nl/publications/67299
Official URL:http://dx.doi.org/10.1002/elan.200403253
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