Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

Dopa-responsive dystonia (DRD) is an inherited metabolic disorder now classified as DYT5 with two different biochemical defects: autosomal dominant GTP cyclohydrolase 1 (GCH1) deficiency or autosomal recessive tyrosine hydroxylase deficiency. We report the case of a 10-years-old girl with progressive generalized dystonia and gait disorder who presented dramatic response to levodopa. The phenylalanine to tyrosine ratio was significantly higher after phenylalanine loading test. This condition had two different heterozygous mutations in the GCH1 gene: the previously reported P23L mutation and a new Q182E mutation. The characteristics of the DRD and the molecular genetic findings are discussed.
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PMID:A novel missense mutation pattern of the GCH1 gene in dopa-responsive dystonia. 1834 35

Dopa-responsive dystonia is a hereditary disease characterized by inadequate dopamine production. Autosomal-dominant cases result from mutations in the GCH1 gene, encoding guanosine triphosphate (GTP)-cyclohydrolase 1. The most common presenting manifestation is dystonia of a lower extremity, often worsening late in the day. The onset and clinical severity are variable, sometimes even within a single family. Gender effects on allele penetrance have been reported. We present a male toddler with dopa-responsive dystonia caused by an autosomal-dominant GCH1 mutation. Three other family members were also found to carry the mutation, with widely different functional consequences.
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PMID:Dopa-responsive dystonia presenting as delayed and awkward gait. 1835 7

Dopa-responsive dystonia in children, including guanosine triphosphate cyclohydrolase I deficiency, is an important subcategory of treatable dystonia characterized by a dramatic, sustained response to levodopa. Early diagnosis is difficult, however, because of the heterogeneity of the clinical phenotype. We report on two Korean children affected with dopa-responsive dystonia caused by a novel missense mutation of the guanosine triphosphate cyclohydrolase I gene. One child exhibits a novel sporadic mutation, and the other child demonstrates autosomal-dominant inheritance.
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PMID:Autosomal-dominant guanosine triphosphate cyclohydrolase I deficiency with novel mutations. 1841 Aug 56

Recently it was shown that single nucleotide polymorphisms (SNPs) can explain individual variation because of the small changes of the gene expression level and that the 50% decreased expression of an allele might even lead to predisposition to cancer. In this study, we found that a decreased expression of an allele might cause predisposition to genetic disease. Dopa responsive dystonia (DRD) is a dominant disease caused by mutations in GCH1 gene. The sequence analysis of the GCH1 in a patient with typical DRD symptoms revealed two novel missense mutations instead of a single dominant mutation. Family members with either of the mutations did not have any symptoms of DRD. The expression level of a R198W mutant allele decreased to about 50%, suggesting that modestly decreased expression caused by an SNP should lead to predisposition of a genetic disease in susceptible individuals.
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PMID:Predisposition of genetic disease by modestly decreased expression of GCH1 mutant allele. 1858 64

Dopa-responsive dystonia (DRD) is a hereditary dystonia characterized by a childhood onset of fixed dystonic posture with a dramatic and sustained response to relatively low doses of levodopa. DRD is thought to result from striatal dopamine deficiency due to a reduced synthesis and activity of tyrosine hydroxylase (TH), the synthetic enzyme for dopamine. The mechanisms underlying the genesis of dystonia in DRD present a challenge to models of basal ganglia movement control, given that striatal dopamine deficiency is the hallmark of Parkinson's disease. We report here behavioral and anatomical observations on a transgenic mouse model for DRD in which the gene for 6-pyruvoyl-tetrahydropterin synthase is targeted to render selective dysfunction of TH synthesis in the striatum. Mutant mice exhibited motor deficits phenotypically resembling symptoms of human DRD and manifested a major depletion of TH labeling in the striatum, with a marked posterior-to-anterior gradient resulting in near total loss caudally. Strikingly, within the regions of remaining TH staining in the striatum, there was a greater loss of TH labeling in striosomes than in the surrounding matrix. The predominant loss of TH expression in striosomes occurred during the early postnatal period, when motor symptoms first appeared. We suggest that the differential striosome-matrix pattern of dopamine loss could be a key to identifying the mechanisms underlying the genesis of dystonia in DRD.
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PMID:Differential involvement of striosome and matrix dopamine systems in a transgenic model of dopa-responsive dystonia. 1871 55

Dopa-responsive dystonia (DRD), also known as Segawa syndrome or hereditary progressive dystonia with diurnal fluctuation, is clinically characterized by the occurrence of simultaneous or late Parkinsonism and by an excellent response to treatment with low doses of L-dopa. Diagnosis of DRD is essentially clinical. It is based on clinical history and the response to treatment with low doses of L-dopa. However, due to the low penetrance of the disease, asymptomatic carriers may exist. In these cases, mutational analysis of the GCH1 gene is an alternative to diagnose DRD. In the present study, we investigated a large DRD-carrier family in an attempt to identify the disease-causing mutation. The proband, a young woman diagnosed at the age of 13 years, is the daughter of a healthy non-consanguineous couple with history of several cases, on the maternal side of the family, of tip-toeing, disturbance of gait, Parkinsonism, rigidity and cramps in the lower limbs. Using single strand conformational polymorphism and DNA sequencing techniques to analyze DNA extracted from blood samples, we identified a mutation in the GCH1 gene, IVS5+3insT, which would preclude the formation of the active enzyme due to the formation of truncated peptides.
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PMID:Mutation in intron 5 of GTP cyclohydrolase 1 gene causes dopa-responsive dystonia (Segawa syndrome) in a Brazilian family. 1875 96

Dopa-responsive dystonia, also known as hereditary progressive dystonia with diurnal fluctuation or Segawa's syndrome, is a rare hereditary progressive dystonia with two striking clinical features: a marked diurnal fluctuation of symptoms with symptoms worsening throughout the day and improving after sleep, and a dramatic response to levodopa therapy. Whilst rare, it is treatable, with function being normal or near normal after levodopa therapy. We present our experience of providing anaesthesia for caesarean section in a patient with dopa-responsive dystonia and discuss the safety of levodopa therapy during pregnancy and the anaesthetic management of these patients.
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PMID:Anaesthesia for caesarean section in a patient with dopa-responsive dystonia or Segawa's syndrome. 1902 57

(6R)-L-erythro-5,6,7,8-tetrahydrobiopterin (BH4) is an essential cofactor for aromatic amino acid hydroxylases, such as phenylalanine hydroxylase (PAH), tyrosine hydroxylase (TH), tryptophan hydroxylase, and nitric oxide synthase, which catalyze physiologically important reactions in mammals. The biosynthesis and metabolism of BH4 is usually studied mostly in the liver and only slightly in the brain, as the BH4 level in the liver is relatively high because BH4 is required for the reaction of PAH. We found that GTP (guanosine triphosphate) cyclohydrolase I, an enzyme for the biosynthesis of BH4, is a causative gene for DOPA (3,4-dihydroxyphenylalanine)-responsive dystonia (also called Segawa's disease), and that partial deficiency of BH4 leads to the dysfunction of the nigrostriatal dopaminergic neurons without hyperphenylalaninemia. We analyzed BH4-deficient mice that were produced by disruption of a BH4-synthesizing gene by a gene-knockout technique. We found that the protein amount of TH was highly dependent on the amount of BH4, especially in nerve terminals. Our research suggests that BH4 metabolism in the brain should be different from that in the liver, and that altered metabolism of BH4 should lead to neuropsychiatric disorders including Parkinson's disease.
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PMID:Metabolism of tetrahydrobiopterin: its relevance in monoaminergic neurons and neurological disorders. 1910 67

Diagnosis of dystonia is not difficult by recognizing the pattern of clinical presentation. Dopa-responsive dystonia (DRD) and Wilson disease are important in differential diagnosis because of their specific treatment. The most common are the focal dystonias, including blepharospasm and spasmodic torticollis. Dystonia comprises mobile involuntary movements and abnormal postures, the latter is better described as hypokinetic disorder. The pathogenesis of dystonia is now being clarified, and includes abnormal neuroplasticity caused by the relative excess of dopamine in the matrix compartment of the striatum, the possible primary lesion being the striosome. In a dopa-responsive dystonia model, dopaminergic projection is more deficient to the striosome than to the matrix, which could produce imbalance between the direct versus. indirect pathway activities. The treatment options include trihexyphenidyl, minor tranquilizers, botulinum toxin injection, and deep brain stimulation.
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PMID:[Diagnosis and treatment of dystonia]. 1919 96

Tyrosine hydroxylase (TH) deficiency is a rare autosomal recessive disorder mapped to chromosome 11p15.5. Its clinical expression varies with presentations as dopa-responsive dystonia (recessive Segawa's disease), dopa-responsive infantile parkinsonism, dopa-responsive spastic paraplegia, progressive infantile encephalopathy or dopa-non-responsive dystonia. We describe a 7-year-old boy with progressive infantile encephalopathy and non-responsiveness to dopamine. The patient demonstrated generalized hypotonia, pyramidal tract dysfunction and temperature instability after the second month of life. Dystonia, tremor and oculogyric crises complicated the clinical picture during the following months. Neurotransmitter analysis in CSF disclosed almost undetectable levels of HVA and MHPG, whereas serum prolactin was profoundly increased. Subsequent molecular analysis revealed homozygosity for a missense mutation (c.707T>C) in the TH gene. l-Dopa therapy in both high and low doses resulted in massive hyperkinesias, while substitution with selegiline exerted only a mild beneficial effect. Today, at the age of 7 years, the patient demonstrates severe developmental retardation with marked trunkal hypotonia, hypokinesia and occasionally dystonic and/or hyperkinetic crises. He is the third Greek patient with TH deficiency to be reported. Since all three patients carry the same pathogenetic mutation, a founder effect is suspected.
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PMID:Tyrosine hydroxylase deficiency with severe clinical course. 1928 9


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