UMLS:C0013421 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0013421 (dystonia)
8,418 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Five of 24 (21%) normal men (volunteers) administered alpha-methyl-para-tyrosine (AMPT), a catecholamine-depleting agent, developed acute dystonic reactions. The finding that catecholamine depletion without receptor blockade is sufficient to cause acute dystonia suggests that a variety of neurotransmitter imbalances may lead to idiopathic primary dystonia.
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PMID:Acute dystonic reaction in normal humans caused by catecholamine depletion. 198 Apr 30

Kinetics of catecholamine biosynthesis and metabolism have been examined in patients with hereditary progressive dystonia with marked diurnal fluctuation of symptoms (HPD, Segawa's disease). Three patients and a healthy control received an oral load of deuterated tyrosine, and monodeuterium labelled catecholamines and their metabolites in urine and plasma were examined by gas chromatography-mass spectrometry. Patients excreted normal amounts of the primary metabolites of dopamine (dihydroxyphenylacetic acid, homovanillic acid) in urine, suggesting normal rates of dopamine production. However, the biological half-life of dopamine in the patients was reduced to about half that of controls. Noradrenaline biosynthesis and metabolism were normal. Taken together, these results are interpreted to show a reduced biological half-life of dopamine in the brains of these patients, possibly caused by a defect in dopamine storage. Impaired dopamine storage may be the basis of the diurnal fluctuation in symptoms.
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PMID:Kinetic study of catecholamine metabolism in hereditary progressive dystonia. 271 62

The pteridine cofactor of tyrosine and tryptophan hydroxylases, tetrahydrobiopterin (BH4), is concentrated in the striatum and other sites of brain monoamine synthesis and is a regulatory factor in the rate-limiting step of catecholamine synthesis. CSF content was decreased in eight patients with dystonic disorders (mean, 13.0 +/- 0.8 pmol/ml CSF compared with 20.6 +/- 1.4 in age-matched normals). We gave several trials of synthetic BH4 intravenously to 10 dystonic patients with benefit for 2 subjects with diurnally fluctuating dystonia, 1 with hemidystonia and parkinsonism, and 1 with generalized torsion dystonia. The findings of biopterin abnormality and the observed clinical improvements may point to a role for the cofactor in the pathogenesis and, possibly, the treatment of some forms of primary dystonia.
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PMID:Tetrahydrobiopterin in dystonia: identification of abnormal metabolism and therapeutic trials. 370 82

Four patients suffered acute dystonic reactions caused by tetrabenazine. Because dystonic reactions have previously been reported only after dopamine receptor blockade and not with dopamine depletion, it is likely that the ability of tetrabenazine to induce acute dystonia is due to its dopamine receptor blocking properties. Because tetrabenazine can induce acute dystonia even when combined with alpha-methyl-p-tyrosine, presynaptic dopamine stores may not be necessary for these reactions to occur.
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PMID:Tetrabenazine induces acute dystonic reactions. 397 3

Neurological side effects associated with neuroleptic drugs result from a complex interaction of multiple neurotransmitters. To clarify the etiology of neuroleptic-induced acute dystonic reactions, monkeys (Cercopithecus aethiops) were treated with haloperidol at doses sufficient to evoke dystonia, and the effects of agents that influenced dopaminergic, cholinergic, or GABAergic neurotransmitters were evaluated. Apomorphine, a dopamine (DA) agonist, and biperiden, an acetylcholine (ACh) antagonist, decreased acute dystonia, whereas alpha-methyl-p-tyrosine (AMPT), an inhibitor of DA synthesis, and physostigmine, an ACh agonist, agonist, increased the symptoms. Muscimol, a GABA agonist, increased the dystonias in a dose-dependent way, and GABA inhibition with picrotoxin also aggravated dystonia, complicated by systemic intoxication and seizures. The reciprocal interaction between DA and ACh influences is consistent with clinical findings and animal models of dyskinesias. Dystonia may also be modulated by GABAergic substrates, but the results suggest complex interactions among DA, ACh, and GABA neurotransmission. Symptoms involving the orofacial, limb, and trunk regions, and purposeless overactivity are discussed in comparison with acute and tardive neuroleptic-induced movement disorders.
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PMID:Dopamine, acetylcholine, and GABA effects in acute dystonia in primates. 677 41

Concurrent administration of lithium (Li) significantly attenuates the dopamine (DA) depleting effects of reserpine and tetrabenazine, but does not change alpha-methyl-p-tyrosine (AMPT) induced DA depletion in rat brain. This effect of Li is probably mediated, in part, by inhibiting the magnesium-dependent binding of both reserpine and tetrabenazine to their specific receptor sites. Such interaction between these drugs may attenuate the beneficial effects of tetrabenazine and reserpine on patients with tardive dyskinesia or tardive dystonia who are treated concurrently with lithium for their psychiatric disorder.
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PMID:Lithium attenuates dopamine depleting effects of reserpine and tetrabenazine but not that of alpha methyl-p-tyrosine. 686 53

The voltage-gated sodium channel SCN8A is associated with inherited neurological disorders in the mouse that include ataxia, dystonia, severe muscle weakness, and paralysis. We report the complete coding sequence and exon organization of the human SCN8A gene. The predicted 1980 amino acid residues are distributed among 28 exons, including two pairs of alternatively spliced exons. The SCN8A protein is evolutionarily conserved, with 98.5% amino acid sequence identity between human and mouse. Consensus sites for phosphorylation of serine/threonine and tyrosine residues are present in cyoplasmic loop domains. The polymorphic (CA)n microsatellite marker D12S2211, with PIC = 0.68, was isolated from intron 10C of SCN8A. Single nucleotide polymorphisms in intron 19 and exon 22 were also identified. We localized SCN8A to chromosome band 12q13.1 by physical mapping on a YAC contig. The cDNA clone CSC-1 was reported by others to be a cardiac-specific sodium channel, but sequence comparison demonstrates that it is derived from exon 24 of human SCN8A. The genetic information described here will be useful in evaluating SCN8A as a candidate gene for human neurological disease.
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PMID:Exon organization, coding sequence, physical mapping, and polymorphic intragenic markers for the human neuronal sodium channel gene SCN8A. 982 31

Tetrahydrobiopterin (BH4) is synthesized from guanosine triphosphate (GTP) by GTP cyclohydrolase I (GCH), 6-pyruvoyltetrahydropterin synthase (PTS), and sepiapterin reductase (SPD). GCH is the rate-limiting enzyme. BH4 is a cofactor for three pteridine-requiring monooxygenases that hydroxylate aromatic L-amino acids, i.e., tyrosine hydroxylase (TH), tryptophan hydroxylase (TPH), and phenylalanine hydroxylase (PAH), as well as for nitric oxide synthase (NOS). The intracellular concentrations of BH4, which are mainly determined by GCH activity, may regulate the activity of TH (an enzyme-synthesizing catecholamines from tyrosine), TPH (an enzyme-synthesizing serotonin and melatonin from tryptophan), PAH (an enzyme required for complete degradation of phenylalanine to tyrosine, finally to CO2 + H2O), and also the activity of NOS (an enzyme forming NO from arginine), Dominantly inherited hereditary progressive dystonia (HPD), also termed DOPA-responsive dystonia (DRD) or Segawa's disease, is a dopamine deficiency in the nigrostriatal dopamine neurons, and is caused by mutations of one allele of the GCH gene. GCH activity and BH4 concentrations in HPD/DRD are estimated to be 2-20% of the normal value. By contrast, recessively inherited GCH deficiency is caused by mutations of both alleles of the GCH gene, and the GCH activity and BH4 concentrations are undetectable. The phenotypes of recessive GCH deficiency are severe and complex, such as hyperphenylalaninemia, muscle hypotonia, epilepsy, and fever episode, and may be caused by deficiencies of various neurotransmitters, including dopamine, norepinephrine, serotonin, and NO. The biosynthesis of dopamine, norepinephrine, epinephrine, serotonin, melatonin, and probably NO by individual pteridine-requiring enzymes may be differentially regulated by the intracellular concentration of BH4, which is mainly determined by GCH activity. Dopamine biosynthesis in different groups of dopamine neurons may be differentially regulated by TH activity, depending on intracellular BH4 concentrations and GCH activity. The nigrostriatal dopamine neurons may be most susceptible to a partial decrease in BH4, causing dopamine deficiency in the striatum and the HPD/DRD phenotype.
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PMID:Regulation of pteridine-requiring enzymes by the cofactor tetrahydrobiopterin. 1032 73

Tetrahydrobiopterin (BH(4)) cofactor is essential for various processes, and is present in probably every cell or tissue of higher organisms. BH(4) is required for various enzyme activities, and for less defined functions at the cellular level. The pathway for the de novo biosynthesis of BH(4) from GTP involves GTP cyclohydrolase I, 6-pyruvoyl-tetrahydropterin synthase and sepiapterin reductase. Cofactor regeneration requires pterin-4a-carbinolamine dehydratase and dihydropteridine reductase. Based on gene cloning, recombinant expression, mutagenesis studies, structural analysis of crystals and NMR studies, reaction mechanisms for the biosynthetic and recycling enzymes were proposed. With regard to the regulation of cofactor biosynthesis, the major controlling point is GTP cyclohydrolase I, the expression of which may be under the control of cytokine induction. In the liver at least, activity is inhibited by BH(4), but stimulated by phenylalanine through the GTP cyclohydrolase I feedback regulatory protein. The enzymes that depend on BH(4) are the phenylalanine, tyrosine and tryptophan hydroxylases, the latter two being the rate-limiting enzymes for catecholamine and 5-hydroxytryptamine (serotonin) biosynthesis, all NO synthase isoforms and the glyceryl-ether mono-oxygenase. On a cellular level, BH(4) has been found to be a growth or proliferation factor for Crithidia fasciculata, haemopoietic cells and various mammalian cell lines. In the nervous system, BH(4) is a self-protecting factor for NO, or a general neuroprotecting factor via the NO synthase pathway, and has neurotransmitter-releasing function. With regard to human disease, BH(4) deficiency due to autosomal recessive mutations in all enzymes (except sepiapterin reductase) have been described as a cause of hyperphenylalaninaemia. Furthermore, several neurological diseases, including Dopa-responsive dystonia, but also Alzheimer's disease, Parkinson's disease, autism and depression, have been suggested to be a consequence of restricted cofactor availability.
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PMID:Tetrahydrobiopterin biosynthesis, regeneration and functions. 1072 95

Paraganglioma (PGL) is a rare disorder characterized by tumors of the head and neck region. Between 10% and 50% of cases of PGL are familial, and the disease is autosomal dominant and subject to age-dependent penetrance and imprinting. The paraganglioma gene (PGL1) has been mapped to 11q22.3-q23, and recently germline mutations in the SDHD gene have been identified. The SDHD region contains another gene, DPP2/TIMM8B, the homolog of which causes dystonia and deafness seen in Mohr-Tranebjaerg syndrome. Using four PGL pedigrees, two of which exhibit coinheritance of PGL and sensorineural hearing loss or tinnitus, analysis of 14 microsatellite markers provided support for linkage to the PGL1 locus. Sequence analysis identified novel mutations in exon 1 and exon 3 of the SDHD gene, including a novel two base pair deletion in exon 3 creating a premature stop codon at position 67; a novel three base pair deletion in exon 3 resulting in the loss of Tyr-93; a missense mutation in exon 3 resulting in the substitution of Leu-81 for Pro-81; and a novel G-to-C substitution in exon 1 resulting in the substitution of Met-1 for Ile-1. No base changes were detected in the DPP2/TIMM8B gene. There was no apparent loss of heterozygosity at the site of the SDHD mutations. However, RT-PCR analysis of tumor samples showed monoallelic expression of the mutant (paternal) allele as expected for imprinting. This has not previously been shown for this disorder. The inheritance and expression of the SDHD gene is consistent with the PGL1 gene being subject to genomic imprinting.
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PMID:Novel mutations in the SDHD gene in pedigrees with familial carotid body paraganglioma and sensorineural hearing loss. 1139 96

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