DrugBank:EXPT02288 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: DrugBank:EXPT02288 (NADH)
21,914 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

There is increasing evidence that defective function of the mitochondrial enzyme NADH CoQ reductase (complex I) is involved not only in 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP) toxicity, but also in idiopathic Parkinson's disease (PD). Complex I deficiency has been identified in PD substantia nigra and appears to be disease-specific and selective for the substantia nigra within the central nervous system. We describe a method for preparation of an enriched mitochondrial fraction from 60 mL blood. Using this technique, we analyzed respiratory chain function in 25 patients with PD and 15 matched control subjects. We confirm a previous report of a specific complex I deficiency in PD platelet mitochondria. Although there was a statistically significant decrease in complex I activity in the PD group compared with the control group (p = 0.005), the defect was mild (16%); it was not possible to distinguish PD from control values on an individual basis. This deficiency is not detectable in platelet whole-cell homogenates, presumably reflecting the relative insensitivity of this preparation and the limited decrease in complex I activity in PD. The presence of a mild complex I defect in platelets together with a more severe defect in substantia nigra suggests either that the pharmacological characteristics shared by these two tissues render them susceptible to a particular toxin or toxins, or that the defect is widely distributed and other biochemical events enhance the deficiency in substantia nigra.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Platelet mitochondrial function in Parkinson's disease. The Royal Kings and Queens Parkinson Disease Research Group. 147 69

There is increasing evidence for a defect of mitochondrial respiratory chain function in Parkinson's disease. Specific NADH CoQ1 reductase (complex I) deficiency has been identified in the substantia nigra. Available evidence suggests that this defect is confined to the substantia nigra and is not present elsewhere in the parkinsonian brain. The absence of a detectable mitochondrial abnormality in the substantia nigra of patients with multiple system atrophy also suggests that the complex I deficiency in Parkinson's disease is not simply due to an artifact of neuronal degeneration. Evidence for abnormal mitochondrial function in skeletal muscle is conflicting; two studies showed multiple respiratory chain defects and one study was unable to demonstrate any deficiency. A severe deficiency of complex I activity has been found in platelet mitochondria from parkinsonian patients. This finding has not as yet been confirmed. Platelet homogenates do not show the complex I deficiency, however, suggesting that such a preparation may be too insensitive to detect the defect. The role of complex I deficiency in the events that culminate in dopaminergic cell death in Parkinson's disease remains unresolved. It is likely that if this mitochondrial defect is confirmed, it will be related to a number of other factors, including environmental agents, oxidative stress, and genetic predisposition.
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PMID:Mitochondrial function in Parkinson's disease. The Royal Kings and Queens Parkinson's Disease Research Group. 151 Mar 69

We measured metabolites of tyrosine and tryptophan (TRP) in the frontal cortex, putamen (PT), and pars compacta of the substantia nigra (SN) of control and Parkinson's disease (PD) brain tissues. Dopamine concentrations were significantly decreased in the PT and SN of PD tissue, regardless of L-dopa therapy. However, 3-O-methyldopa (3OMD) concentration showed a significant increase in each region of the PD group treated with L-dopa (PD[+]) as compared with both the control group and the PD group without L-dopa therapy (PD[-]). Therefore, 3OMD concentration appears to be a reliable marker of L-dopa therapy. Serotonin concentration was lower in each region of the PD groups than in the control group. Although the magnitude of decrease was greater in the PD(+) group, there was no statistical significance between the two PD groups. The same patterns of decrease were present in kynurenine (KYN) and kynurenic acid (KYA) concentrations, but the molar ratios of TRP to KYN and KYN to KYA were unchanged among three groups. In contrast, 3-hydroxykynurenine (3OHKY) concentration was increased in the PT PD(-) group and in three regions of the PD(+) group. Since the KYN pathway leads to formation of nicotinamide-adenine dinucleotide (NADH), the present results may be a further indication of a defect in NADH:ubiquinone oxidoreductase (complex I) in mitochondria in PD.
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PMID:Kynurenine pathway abnormalities in Parkinson's disease. 151 57

Defective complex I activity has been linked to Parkinson's disease and Huntington's disease, but little is known of the regional distribution of this enzyme in the brain. We have developed a quantitative autoradiographic assay using [3H]dihydrorotenone ([3H]DHR) to label and localize complex I in brain tissue sections. Binding was specific and saturable and in the cerebellar molecular layer had a KD of 11.5 +/- 1.3 nM and a Bmax of 11.0 +/- 0.4 nCi/mg of tissue. Unlabeled rotenone and 1-methyl-4-phenylpyridinium ion competed effectively for DHR binding sites. Binding was markedly enhanced by 100 microM NADH. The distribution of complex I in brain, as revealed by DHR autoradiography, is unique but somewhat similar to that of cytochrome oxidase (complex IV). This assay may provide new insight into the roles of complex I in brain function and neurodegeneration.
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PMID:Quantitative autoradiography of dihydrorotenone binding to complex I of the electron transport chain. 162 44

Incubation of 10 mM 1-methyl-4-phenylpyridinium (MPP+) with sonicated beef heart mitochondria caused an irreversible time-dependent decrease in NADH-ubiquinone-1 (CoQ1) reductase activity (52% inhibition after 1 h). Inclusion of glutathione, ascorbate, or catalase in the incubation mixture protected the NADH-CoQ1 reductase activity. These results suggest that the interaction of MPP+ with complex I induces free radical generation, which in turn leads to the irreversible inhibition of complex I activity. The generation of free radicals by neurotoxin-induced inhibition of complex I has important implications for our interpretation of the increased oxidative stress observed in Parkinson's disease substantia nigra and for our understanding of the cause(s) of dopaminergic cell death in this disorder.
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PMID:Irreversible inhibition of mitochondrial complex I by 1-methyl-4-phenylpyridinium: evidence for free radical involvement. 172 21

Nigrostriatal cell death in 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP)-induced Parkinson's disease results from the inhibition of mitochondrial respiration by 1-methyl-4-phenylpyridinium (MPP+). MPP+ blocks electron flow from NADH dehydrogenase to coenzyme Q at or near the same site as do rotenone and piericidin and protects against binding of and loss of activity due to these inhibitors. The 4'-analogs of MPP+ showed increasing affinity for the site with increasing length of alkyl chain, with the lowest Ki, for 4'-heptyl-MPP+, being 6 microM. The 4'-analogs compete with rotenone for the binding site in a concentration-dependent manner. They protect the activity of the enzyme from inhibition by piericidin in parallel to preventing its binding, indicating that the analogs and piericidin bind at the same inhibitory site(s). The optimum protection, however, was afforded by 4'-propyl-MPP+. The lesser protection by the more lipophilic MPP+ analogs with longer alkyl chains may involve a different orientation in the hydrophobic cleft, allowing rotenone and piericidin to still bind even when the pyridinium cation is in a position to interrupt electron flow from NADH to coenzyme Q.
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PMID:Interaction of 1-methyl-4-phenylpyridinium ion (MPP+) and its analogs with the rotenone/piericidin binding site of NADH dehydrogenase. 200 36

The structure and function of mitochondrial respiratory-chain enzyme proteins were studied postmortem in the substantia nigra of nine patients with Parkinson's disease and nine matched controls. Total protein and mitochondrial mass were similar in the two groups. NADH-ubiquinone reductase (Complex I) and NADH cytochrome c reductase activities were significantly reduced, whereas succinate cytochrome c reductase activity was normal. These results indicated a specific defect of Complex I activity in the substantia nigra of patients with Parkinson's disease. This biochemical defect is the same as that produced in animal models of parkinsonism by 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP) and adds further support to the proposition that Parkinson's disease may be due to an environmental toxin with action(s) similar to those of MPTP.
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PMID:Mitochondrial complex I deficiency in Parkinson's disease. 215 50

The coenzyme nicotinamide adenine dinucleotide (NADH) has been used in an open label trial as novel medication in 34 patients with Parkinson's disease, using an intravenous administration technique. In all patients a beneficial clinical effect was observed. 21 patients (61.7%) showed a very good (better than 30%) improvement of disability, 13 patients (38.3%) a moderate (up to 30%) improvement. Concomitant with the improvement of the disability the urine level of homovanillic acid (HVA) increased significantly in all patients (in some patients by more than a 100%). The daily "on phases" of the patients could be increased from 2 up to 9 hours in the individual patients by NADH administration.
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PMID:The coenzyme nicotinamide adenine dinucleotide (NADH) improves the disability of parkinsonian patients. 259 15

This paper examines the experimental foundations of reports in the literature on mitochondrial diseases involving Complexes I and II of the respiratory chain. Many of the reports may be questioned on the basis of the assay conditions used which disregard established knowledge of the precautions required for valid activity measurements. In addition, some findings are open to question because of the experimental material chosen for the study, such as the measurement of NADH oxidase activity in platelets in Parkinson's disease, which affects selectively the dopamine neurons, or the use of autopsy material stored for prolonged periods during which post-mortem changes may have occurred. Deficiencies claimed to involve several components of the respiratory chain may reflect indirect effects, such as defects in the synthesis of iron-sulfur clusters or in the availability of iron, rather than mutations in the genes coding for the deficient enzymes. Nevertheless, there are a few instances reported of Complex II deficiency free from such criticisms. As to Complex I, idiopathic Parkinsonism appears to involve a documentable decline in the activity of this enzyme. Using the model system provided by N-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP), which produces biochemical, pharmacological, and clinical syndromes closely resembling Parkinsonism, the etiology of the disease is examined.
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PMID:Deficiencies of NADH and succinate dehydrogenases in degenerative diseases and myopathies. 759 11

It has earlier been claimed that clinical improvement of patients with Parkinson's disease is obtained by treatment with NADH. This has to be verified by double-blind, clinical studies and measurement of biochemical effects of the treatment. In a double blind study five patients with clinically moderate Parkinson's disease were treated with NADH, 25 mg, given intravenously once a day for four days. Then they were given 25 mg NADH intramuscularly after 2 and 4 weeks. Disability scores were determined before each treatment and two weeks after the final injection. A control group (n = 4) with the same degree of Parkinson's disease obtained sodium chloride with the same schedule. According to the Unified Parkinson's Disease Rating Scale a tendency to clinical improvement was seen after the iv infusions in both treatment and placebo groups. However, the changes were not statistically significant, and no changes occurred during the following weeks. No changes were found neither in the study nor the control group regarding cerebrospinal fluid concentrations of dynorfin, metenkefalin, somatostatin, hydroxy-methoxy-phenylglycol, homovanillic acid and 5-hydroxyindole acetic acid. The results indicate that no great changes are obtained after short-term treatment of parkinsonian patients with NADH, neither clinically nor biochemically.
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PMID:Treatment of Parkinson's disease with NADH. 788 34

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