Selective and Nonselective Effects of 1‐Methyl‐4‐ Phenylpyridinium on Oxygen Consumption in Rat Striatal and Hippocampal Slices

Martin, Frederick R.; Sanchez‐Ramos, Juan; Rosenthal, Myron

doi:10.1111/j.1471-4159.1991.tb08299.x

Cited by 12 publications

(2 citation statements)

References 41 publications

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“…The mechanism proposed in Scheme 1 is consistent with many factors associated with the neurotoxicity of MPTP/MPP + . These include the loss of nigrostriatal GSH without corresponding increases of GSSG levels, elevation of extracellular Glu levels as the neuron energy impairment subsides, roles for NMDA receptor activation, intraneuronal O 2 ‐• , mobilization of low‐molecularweight iron, extracellular OH • , DA release/reuptake (Martin et al, 1991 ; Santiago et al, 1995), and delayed inhibition of complex I (Sriram et al, 1997). However, there is presently no evidence for the participation of 5‐ S ‐CyS‐DA and its dihydrobenzothiazine/benzothiazine metabolites in the neurotoxic mechanism evoked by MPTP/MPP + .…”

Section: Discussionmentioning

confidence: 99%

Inhibitors of Mitochondrial Respiration, Iron (II), and Hydroxyl Radical Evoke Release and Extracellular Hydrolysis of Glutathione in Rat Striatum and Substantia Nigra

Han

Cheng²,

Yang³

et al. 1999

Journal of Neurochemistry

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Abstract:In this investigation, microdialysis has been used to study the effects of 1-methyl-4-phenylpyridinium (MPP ϩ ), an inhibitor of mitochondrial complex I and ␣-ketoglutarate dehydrogenase and the active metabolite of the dopaminergic neurotoxin 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP), on extracellular concentrations of glutathione (GSH) and cysteine (CySH) in the rat striatum and substantia nigra (SN). During perfusion of a neurotoxic concentration of MPP ϩ (2.5 mM) into the rat striatum or SN, extracellular concentrations of GSH and CySH remain at basal levels (both ϳ2 M). However, when the perfusion is discontinued, a massive but transient release of GSH occurs, peaking at 5,000% of basal levels in the striatum and 2,000% of basal levels in the SN. The release of GSH is followed by a slightly delayed and smaller elevation of extracellular concentrations of CySH that can be blocked by the ␥-glutamyl transpeptidase (␥-GT) inhibitor acivicin. Low-molecular-weight iron and extracellular hydroxyl radical (OH ⅐ ) have been implicated as participants in the mechanism underlying the dopaminergic neurotoxicity of MPTP/MPP ϩ . During perfusion of Fe 2ϩ (OH ⅐ ) into the rat striatum and SN, extracellular levels of GSH also remain at basal levels. When perfusions of Fe 2ϩ are discontinued, a massive transient release of GSH occurs followed by a delayed, small, but progressive elevation of extracellular CySH level that again can be blocked by acivicin. Previous investigators have noted that extracellular concentrations of the excitatory/excitotoxic amino acid glutamate increase dramatically when perfusions of neurotoxic concentrations of MPP ϩ are discontinued. This observation and the fact that MPTP/MPP ϩ causes the loss of nigrostriatal GSH without corresponding increases of glutathione disulfide (GSSG) and the results of the present investigation suggest that the release and ␥-GT/dipeptidase-mediated hydrolysis of GSH to glutamate, glycine, and CySH may be important factors involved with the degeneration of dopamine neurons. It is interesting that a very early event in the pathogenesis of Parkinson's disease is a massive loss of GSH in the SN pars compacta that is not accompanied by corresponding increases of GSSG levels. Based on the results of this and prior investigations, a new hypothesis is proposed that might contribute to an understanding of the mechanisms that underlie the degeneration of dopamine neurons evoked by MPTP/ MPP ϩ , other agents that impair neuronal energy metabolism, and Parkinson's disease. Key Words: Parkinson's disease-Glutathione-Rat striatum-Rat substantia nigra-1-Methyl-4-phenylpyridinium-1-Methyl-4-phenyl-1,2,3,6-tetrahydropyridine-Fe (II)-Hydroxyl radical-Mitochondrial respiration inhibitors-Dopamine neuron degeneration.

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Section: Discussionmentioning

confidence: 99%

Inhibitors of Mitochondrial Respiration, Iron (II), and Hydroxyl Radical Evoke Release and Extracellular Hydrolysis of Glutathione in Rat Striatum and Substantia Nigra

Han

Cheng²,

Yang³

et al. 1999

Journal of Neurochemistry

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“…As has been shown for MK‐801 (Clarke & Reuben, 1995; Venero et al , 1996) another possible mechanism by which PDC could prevent the striatal depletion produced by MPP + is through inhibition of the dopamine transporter. Inhibition of dopamine uptake protects against MPTP/MPP + (Martin et al , 1991) and methamphetamine toxicity (Marek et al , 1990). In contrast with MK‐801, PDC did not show an inhibitory effect on the uptake of dopamine.…”

Section: Discussionmentioning

confidence: 99%

Lack of involvement of glutamate‐induced excitotoxicity in MPP⁺ toxicity in striatal dopaminergic terminals: possible involvement of ascorbate

Matarredona

Santiago

Machado

et al. 1997

British J Pharmacology

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1 The present study concerns the possible relationship between glutamate excitotoxicity and 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine/1-methyl-4-phenylpyridinium (MPTP/MPP + ) neurotoxicity on striatal dopaminergic terminals. 2 MPP + neurotoxicity has been studied by means of two MPP + perfusions separated by 24 h. After the second MPP + 1 mM perfusion, dopamine extracellular output, measured by microdialysis, was considered to be an index of the dopaminergic neurone damage produced by the ®rst MPP + 1 mM perfusion. 3 High concentration (10 mM) of glutamate uptake inhibitor L-trans-pyrrolidine-2,4-dicarboxylic acid (PDC) stimulated basal release of dopamine and protected against the neurotoxic eect of MPP + . 4 PDC 10 mM perfusion produced an increase in the extracellular output of glutamate and aspartate, and a decrease in that of ascorbate. 5 The protective eect against MPP + toxicity observed with PDC 10 mM was completely abolished when this glutamate uptake inhibitor was co-perfused with ascorbate 0.5 mM. 6 These results suggest that glutamate-induced neurotoxicity is not involved in MPP + toxicity. The protective eect found with the glutamate uptake inhibitor could be due to a decrease in extracellular ascorbate levels.

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Are Dopamine, Norepinephrine, and Serotonin Precursors of Biologically Reactive Intermediates Involved in the Pathogenesis of Neurodegenerative Brain Disorders?

Dryhurst

2001

Advances in Experimental Medicine and Biology

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Selective and Nonselective Effects of 1‐Methyl‐4‐ Phenylpyridinium on Oxygen Consumption in Rat Striatal and Hippocampal Slices

Cited by 12 publications

References 41 publications

Inhibitors of Mitochondrial Respiration, Iron (II), and Hydroxyl Radical Evoke Release and Extracellular Hydrolysis of Glutathione in Rat Striatum and Substantia Nigra

Inhibitors of Mitochondrial Respiration, Iron (II), and Hydroxyl Radical Evoke Release and Extracellular Hydrolysis of Glutathione in Rat Striatum and Substantia Nigra

Lack of involvement of glutamate‐induced excitotoxicity in MPP⁺ toxicity in striatal dopaminergic terminals: possible involvement of ascorbate

Are Dopamine, Norepinephrine, and Serotonin Precursors of Biologically Reactive Intermediates Involved in the Pathogenesis of Neurodegenerative Brain Disorders?

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Selective and Nonselective Effects of 1‐Methyl‐4‐ Phenylpyridinium on Oxygen Consumption in Rat Striatal and Hippocampal Slices

Cited by 12 publications

References 41 publications

Inhibitors of Mitochondrial Respiration, Iron (II), and Hydroxyl Radical Evoke Release and Extracellular Hydrolysis of Glutathione in Rat Striatum and Substantia Nigra

Inhibitors of Mitochondrial Respiration, Iron (II), and Hydroxyl Radical Evoke Release and Extracellular Hydrolysis of Glutathione in Rat Striatum and Substantia Nigra

Lack of involvement of glutamate‐induced excitotoxicity in MPP+ toxicity in striatal dopaminergic terminals: possible involvement of ascorbate

Are Dopamine, Norepinephrine, and Serotonin Precursors of Biologically Reactive Intermediates Involved in the Pathogenesis of Neurodegenerative Brain Disorders?

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Lack of involvement of glutamate‐induced excitotoxicity in MPP⁺ toxicity in striatal dopaminergic terminals: possible involvement of ascorbate