Kathleen A. McKeown scite author profile

Twenty analogs of 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP) were tested for their capacity to be oxidized by pure monoamine oxidase-A (MAO-A) prepared from human placenta and pure monoamine oxidase-B (MAO-B) prepared from beef liver. Several of the MPTP analogs were very good substrates for MAO-A, for MAO-B, or for both and had low Km values and high turnover numbers. These values were similar to or even better than those of kynuramine and benzylamine, good substrates for MAO-A and MAO-B, respectively. MPTP had relatively low Km values for oxidation by both MAO-A and MAO-B. In contrast, the turnover number for MPTP oxidation by MAO-B was considerably higher than the value for MAO-A. The corresponding pyridinium species of MPTP and several of the MPTP analogs inhibited MAO-A competitively with Ki values at micromolar concentrations; in contrast the pyridinium species inhibited MAO-B competitively at considerably higher concentrations (i.e., 100 microM or greater Ki values). The data provide information concerning the structural requirements for the oxidation of tetrahydropyridines by MAO-A and MAO-B and the inhibition of these enzymes by pyridiniums.

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Purification and Characterization of Pea Seedling Amine Oxidase for Crystallization Studies

McGuirl

McCahon

McKeown

et al. 1994

Plant Physiol.

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Pea (Pisum sativum 1.) seedling amine oxidase (EC 1.4.3.6) i s the first amine oxitase to be crystallized that diffracts to atomic resolution (2.5 A). Extensive modifications of a published purification procedure were necessary to obtain protein that would give diffraction-quality crystals. Here we report the improved purification and also use this high-purity protein to reexamine some fundamental characteristics of pea seedling amine oxidase. l h e extinction coefficient at 280 nm ( E%, ) and the molecular mass of the protein are investigated by a variety of techniques, yielding & = 20 cm-' and a mass of 150 f 6 kD. In addition, the stoichiometry of the metal and organic cofactors, Cu(ll) and 6-hydroxy dopa (Topa) quinone, respectively, is examined. The ratio of Cu(l1):Topa:protein monomer is found to be 1:l:l.

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Mechanism of the neurotoxicity of 1-methyl-4-phenylpyridinium (MPP)+, the toxic bioactivation product of 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP)

et al. 1988

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Structural dependence of the inhibition of mitochondrial respiration and of NADH oxidase by 1-methyl-4-phenylpyridinium (MPP+) analogs and their energized accumulation by mitochondria.

Ramsay¹,

Youngster²,

Nicklas³

et al. 1989

Proc. Natl. Acad. Sci. U.S.A.

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Nineteen structural analogs of 1-methyl- Studies over the past 5 years in our laboratories and by others have provided substantial support for the hypothesis that the expression of the neurotoxicity of 1-methyl-4-phenyl-1,2, 3,6-tetrahydropyridine (MPTP) and the Parkinsonism it produces involves the following steps, all of which occur in the central nervous system. The initial bioactivation of M1PTP is catalyzed by monoamine oxidase (MAO), yielding 1-methyl-4-phenylpyridinium (MPP+) as the ultimate oxidation product (1, 2). In the case of 2'-substituted neurotoxic analogs of MPTP, part or all of the bioactivation is mediated by 4 The present paper concentrates on the terminal events leading to nigrostriatal cell death: the inhibition of NADH oxidation in mitochondria and in inverted inner membranes by MPP+ analogs and the energy-dependent accumulation of some of these analogs by intact mitochondria. The experiments reported may shed light not only on the mechanism of site 1 inhibition of mitochondrial respiration by the bioactivation products of MPTP but also on the nature of the inhibition site that MPP+ shares with rotenone, piericidin A, and barbiturates (10).MATERIALS AND METHODS Rat liver mitochondria were prepared from Sprague-Dawley rats by the mannitol procedure (11). Oxygen consumption was measured polarographically. Since inhibition of mitochondrial respiration by MPP+ and its analogs is a function of both the concentration of inhibitor and the time of its preincubation with the mitochondria, IC50 or Ki values cannot be calculated in a simple manner. Hence, the following procedure was adopted. The mitochondria, buffer, and glutamate and malate were preincubated in the polarographic chamber at 250C with several concentrations of the inhibitor for times varying from 1.5 to 9 min. At that time, ADP was added and the rate of02 consumption was determined at 250C as described (9). The results were then calculated from a plot of 1/time (min) of preincubation with the inhibitor required to reach 50% inhibition of state 3 respiration against the concentration of the inhibitor. The slope of the resulting line is

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