Inhibition of soybean lipoxygenase (L-1) and potato 5-lipoxygenase (5-PLO) by the pyrazoline derivatives phenidone and BW755C only occurs after oxidation of these compounds by the peroxidase-like activity of the lipoxygenases. There is a clear relationship between this oxidation and the irreversible inactivation of L-1. The final product of phenidone oxidation by L-1, 4,5-didehydrophenidone, is not responsible of this inactivation, but the species derived from a one-electron oxidation of phenidone plays a key role in L-1 inactivation. In the absence of O2, inactivation of 1 mol of L-1 occurs after the oxidation of 34 mol of phenidone and the covalent binding of 0.8 mol of phenidone-derived metabolite(s) to L-1. In the presence of O2, inactivation of 1 mol of L-1 occurs already after oxidation of 11 mol of phenidone and only involves the covalent binding of 0.4 mol of phenidone-derived metabolite(s) to L-1. A mechanism is proposed for L-1 inactivation by phenidone, which involves the irreversible binding of a phenidone metabolite to the protein and the oxidation of an L-1 amino acid residue (in the presence of O2).
Hexanal phenylhydrazone (1; 70:30 E:Z mixture) at micromolar concentration irreversibly inactivates soybean lipoxygenase 1 (L-1) in the presence of dioxygen. L-1 catalyzes the oxidation of 1 into its alpha-azo hydroperoxide 2 [C5H11CH(OOH)N = NC6H5]. 2 is an efficient inactivator of L-1. The aerobic reaction between 1 and L-1 follows a branched pathway leading to the release of 2 into the medium or to L-1 inactivation. The respective parameters corresponding to this inactivation by the (E)-1 and (Z)-1 isomers are Ki = 0.25 and 0.40 microM and kinact = 0.8 and 2.1 min-1. Linoleic acid protection agrees with a mechanism-based inactivation process. The oxidation of a minimum of 13 +/- 3 molar equiv of 1 is required for complete L-1 inactivation, but up to 70 equiv is necessary in the presence of a very large excess of 1. The inactivation is actually the result of two pathways: one is due to a reaction of 2 as soon as it is formed at the active site (20%); the other is due to 2 released into the medium and coming back to the active site (80%). The inactivation is accompanied by the oxidation of 1.8 +/- 0.8 methionine residues of the protein into the corresponding sulfoxide. The inactivated L-1 is electron paramagnetic resonance (EPR) silent with an effective magnetic moment of mu = 5.0 +/- 0.1 Bohr magnetons corresponding to an S = 2 spin state. An inactivation mechanism is proposed on the basis of EPR and magnetic susceptibility data obtained from the anaerobic and aerobic reactions of L-1 with 1 and 2.
Nous décrivons la nitration de différents composés hétérocycliques renfermant deux atomes d'azote intranucléaires. Les structures des amines résultant de la réduction des dérivés nitrés sont précisées; les composés aminés sont actuellement testés comme cancérostatiques.
The use of 9-and 2-aminophenanthrene for the preparation of tribenzo-and benzonaphtho-acridines and related heterocycles has been investigated : with 2-aminophenanthrene, the site of the acridine cyclisations is shown to be position 1. Benzoindenoacridines isosteric with benzonaphthoacridines were prepared from 4-aminofluorene.
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