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)

The study of rare genetic forms of dystonia and parkinsonism permits positional cloning of genes potentially involved in more common, multifactorial forms of these diseases. One movement disorder amenable to molecular genetic analysis is the X-linked dystonia-parkinsonism syndrome (XDP). This disease is endemic to the Philippines where it originated by a genetic founder effect. Linkage analysis was performed with DNA from 14 XDP kindreds by using 12 polymorphic DNA sequences in Xp11-Xq22. Two-point analysis demonstrated maximum lod scores of 5.45, 4.95, 4.28, and 5.99 for DXS106, DXS159, PGK1, and DXS72, respectively, at recombination fractions of zero (DXS106 and DXS159), .01 (PGK1), and .04 (DXS72). Multipoint analysis resulted in a maximum-likelihood score (Zmax) of 8.41 with a (Zmax - 1) support interval of 9 cM between DXS159 and DXS72 (Xq12-q21.1). In 19 XDP kindreds significant linkage disequilibrium was found for loci DXS72 (delta = .47), PGK1 (delta = .36), DXS95 (delta = .30), DXS106 (delta = .28), and DXS159 (delta = .26). These data indicate that the gene mutated in XDP (locus DYT3) is located in Xq12-q21.1.
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PMID:Dystonia-parkinsonism syndrome (XDP) locus: flanking markers in Xq12-q21.1. 155 Jan 25

"Lubag" is an X-linked disorder causing dystonia and parkinsonism that has only been described in families from the Philippines, principally from the island of Panay. We have established linkage between the disease phenotype "lubag" and DNA markers which span the Xp11.22-Xq21.3 region by using a large Filipino family with 8 affected men in three generations. These DNA markers define an interval of about 20 centimorgans in the pericentromeric region of the X chromosome as the most likely site of the disease locus XDPD (X-linked dystonia-parkinsonism). XDPD has a maximum multipoint log likelihood ratio score (Zmax) of about 4.6 over the interval from Xq12 to Xq21.31 (DXS159-DXYS1X). The co-occurrence of dystonia and parkinsonism in lubag and in other known disorders suggests there may be a common pathogenetic mechanism. Identification of the genetic defect in this family may provide an important clue toward understanding the pathogenesis and pathophysiology of both dystonia and parkinsonism.
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PMID:Genetic mapping of "Lubag" (X-linked dystonia-parkinsonism) in a Filipino kindred to the pericentromeric region of the X chromosome. 167 7

In order to develop mouse models for human mutagen-sensitive syndromes, we carried out cytogenetic characterization of several mouse mutants and MS/Ae mice showing enhanced radiosensitivities. The applied cytogenetic techniques include chromosomal analysis of in vitro cell cultures and lymphocyte cultures as well as in vivo UDS in hepatocytes, induction of micronuclei in polychromatic erythrocytes and translocation induction in spermatogonial stem cells. Among the mutations studied, namely the contrasted allele of steel (Slcon), viable dominant spotting (Wc), wasted (wst), varitint-waddler (Va) and dystonia musculorum (dt) as well as MS/Ae mice, various iso-, hyper- or hypo-sensitive conditions were recorded. Only Va and dt appear to be associated with some deficiency in DNA repair.
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PMID:Cytogenetic characterization of radiosensitive mouse mutants. 172 Aug 67

We investigated a family with Leber's hereditary optic neuropathy in which affected individuals were homoplasmic for the point mutation of the NADH-dehydrogenase 4 gene of mitochondrial DNA, described by Wallace and colleagues in 1988. The proband had bilateral optic atrophy, tremor, dystonia, and sharply defined lesions in the putamen on magnetic resonance images. Optic atrophy was found in another 3 of 13 investigated relatives on the maternal side. Additional neurological signs were found but only in patients with optic neuropathy. The morphological appearance and the respiratory chain function of muscle tissue were investigated in the proband, his mother, and 3 siblings. Polarographic measurements revealed complex I deficiency in the 5 investigated subjects. Morphological changes of mitochondria were found in 4 of these subjects. There was no decrease in complex I activity measured as NADH ferricyanide reductase or rotenone-sensitive NADH cytochrome c reductase activities. In other cases with complex I deficiency, good agreement between polarographic and spectrophotometric measurements was found. This study showed that there is decreased activity of complex I of the respiratory chain in muscle and that cerebral striatal lesions occur in Leber's hereditary optic neuropathy with the NADH-dehydrogenase 4 gene point mutation.
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PMID:Leber's hereditary optic neuropathy and complex I deficiency in muscle. 176 94

Aberrant iron metabolism in the brain is typified by Hallervorden-Spatz syndrome. In this disorder, large amounts of iron are deposited in the globus pallidus and the pars reticulata of the substantia nigra. It is characterized by extrapyramidal dysfunction, as demonstrated by dystonia, rigidity, and choreoathetosis; onset during the first two decades of life; and progression of signs and symptoms. Corroborative findings include corticospinal tract involvement, ie, spasticity and extensor toe signs, progressive intellectual impairment, retinitis pigmentosa and optic atrophy (usually associated visual evoked response and electroretinogram abnormalities), seizures, familial occurrence, hypointense areas in the basal ganglia on magnetic resonance imaging scans (particularly in the substantia nigra), abnormal cytosomes in circulating lymphocytes, and sea-blue histiocytes in bone marrow. Iron function in normal brain metabolism is manifold, but high concentrations of iron in the basal ganglia area may signal a unique relationship. Data support the likelihood that iron plays a role in the modulation of dopamine binding to postsynaptic receptors. In addition, transferrin receptors and iron are also concentrated in oligodendrocytes in normal brain and, thus, may have a function in myelination. A role of iron also seems likely in oxidation and peroxidation reactions involving membranes and DNA, a capability that becomes uncontrolled when protective biologic mechanisms become inadequate.
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PMID:Hallervorden-Spatz syndrome and brain iron metabolism. 184 35

Idiopathic torsion dystonia (ITD) is a neurological disorder characterized by sustained muscle contractions that appear as twisting movements of the limbs, trunk, and/or neck, which can progress to abnormal postures. Most familial forms of ITD follow autosomal dominant transmission with reduced penetrance. The frequency of ITD in the Ashkenazi Jewish population is five to ten times greater than that in other groups. Recently, a gene for ITD (DYT1) in a non-Jewish kindred was located on chromosome 9q32-34, with tight linkage to the gene encoding gelsolin (GSN). In the present study linkage analysis using DNA polymorphisms is used to locate a gene responsible for susceptibility to ITD in 12 Ashkenazi Jewish families. This dystonia gene exhibits close linkage with the gene encoding argininosuccinate synthetase (ASS), and appears by multipoint analysis to lie in the q32-34 region of chromosome 9, a region that also contains the loci for gelsolin and dopamine-beta-hydroxylase. The same gene may be responsible for ITD both in the non-Jewish kindred mentioned above and in the Ashkenazi Jewish families presented here. However, because there is substantial difference between the penetrance of the dominant allele in these two groups, two different mutations may be operating to produce susceptibility to this disease in the two groups.
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PMID:Dystonia gene in Ashkenazi Jewish population is located on chromosome 9q32-34. 204 51

Torsion dystonia is a movement disorder of unknown etiology characterized by loss of control of voluntary movements appearing as sustained muscle contractions and/or abnormal postures. Dystonic movements can be caused by lesions in the basal ganglia, drugs, or gene defects. Several hereditary forms have been described, most of which have autosomal dominant transmission with variable expressivity. In the Ashkenazi Jewish population the defective gene frequency is about 1/10,000. Here, linkage analysis using polymorphic DNA and protein markers has been used to locate a gene responsible for susceptibility to dystonia in a large, non-Jewish kinship. Affected members of this family have a clinical syndrome similar to that found in the Jewish population. This dystonia gene (ITD1) shows tight linkage with the gene encoding gelsolin, an actin binding protein, and appears by multipoint linkage analysis to lie in the q32-q34 region of chromosome 9 between ABO and D9S26, a region that also contains the locus for dopamine-beta-hydroxylase.
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PMID:Human gene for torsion dystonia located on chromosome 9q32-q34. 257 73

We have examined 138 cases of a disorder previously described in people of Portuguese origin and which has received many names. By computer analysis of 46 different items of a standardized neurological examination carried out in each patient, we have been able to delineate the main components of the clinical presentation, to conclude that the marked variability in clinical expressions does not negate the homogeneity of the disorder, and to describe the natural history of this entity which should be called, for historical reasons, "Machado-Joseph Disease". This hereditary disease has an autosomal dominant pattern of inheritance, presenting as a progressive ataxia with external ophthalmoplegia, and should be classified within the group of "Ataxic multisystem degenerations". When the disease starts before the age of 20, it may present with marked spasticity, of a non progressive nature but often so severe that it can be accompanied by "Gegenhalten" countermovements and dystonic postures but little frank dystonia. There are few true extrapyramidal symptoms except akinesia. When the disease starts after the age of 50, the clinical spectrum is mostly that of an amyotrophic polyneuropathy with fasciculations accompanying the ataxia. For all the other cases the clinical picture is a continuum between these two extremes, the main determinant of the clinical phenotype being the age of onset and a secondary factor, the place of origin of the given kindred. The ataxic and amyotrophic components are clearly progressive with time in contrast to the spasticity component. Although the majority of known cases are of Portuguese origin, this is not obligatory. The next research endeavour should be a search for the chromosomal site of the gene, using molecular biology technology such as those for recombinant DNA.
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PMID:The natural history of Machado-Joseph disease. An analysis of 138 personally examined cases. 650 98

Affected members of 63 families with a variety of autosomal dominant late onset cerebellar ataxias (ADCA), and 29 patients with similar phenotypes but no affected relatives, were investigated for the trinucleotide (CAG) repeat expansion described in Japanese families with Machado-Joseph disease (MJD). This disorder had previously been shown to map to the region of chromosome 14 which also contains a locus causing ADCA in French families, spinocerebellar ataxia 3 (SCA3). The MJD/SCA3 mutation was identified in nine families with ADCA type I, and a further family in which affected members had parkinsonism, peripheral neuropathy, dystonia, and spasticity, but little evidence of cerebellar disease. Only one of the 10 families was British (the Drew family of Walworth); the others originated from India, Jamaica, Ghana, Brazil and France. There was no single clinical feature which distinguished patients with the MJD/SCA3 mutation from those with the CAG expansion on chromosome 6 (SCA1) or ADCA type I families with no known mutation. The CAG repeat length ranged from 13-41 copies on normal chromosomes and 62-80 copies on affected chromosomes. There was a significant inverse correlation between age of onset of symptoms and repeat length, but no significant effect of parental sex on repeat length or age of onset in offspring. DNA analysis for the MJD/SCA3 mutation is useful for diagnosis in patients with familial ataxic or extrapyramidal syndromes, and will aid genetic counselling in these disorders.
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PMID:Detection of the Machado-Joseph disease/spinocerebellar ataxia three trinucleotide repeat expansion in families with autosomal dominant motor disorders, including the Drew family of Walworth. 749 71

A novel point mutation in the ND6 subunit of complex I at position 14,459 of the mitochondrial DNA (MTND6*LDY T14459A) was identified as a candidate mutation for the highly tissue-specific disease. Leber's hereditary optic neuropathy plus dystonia. Since the MTND6*LDYT14459A mutation was identified in a single family, other pedigrees with the mutation are needed to confirm its association with the disease. Clinical, biochemical, and genetic characterization is reported in two additional pedigrees. Leber's hereditary optic neuropathy developed in two family members in one pedigree. The daughter had clinically silent basal ganglia lesions. In a second pedigree, a single individual presented with childhood-onset generalized dystonia and bilateral basal ganglia lesions. Patient groups that included individuals with Leigh's disease, dystonia plus complex neurodegeneration, and Leber's hereditary optic neuropathy did not harbor the MTND6*LDYT14459A mutation, suggesting that this mutation displays a high degree of tissue specificity, thus producing a narrow phenotypic range. These results confirm the association of the MTND6*LDYT14459A mutation with Leber's hereditary optic neuropathy and/or dystonia. As the first genetic abnormality that has been identified to cause generalized dystonia, this mutation suggests that nuclear DNA or mitochondrial DNA mutations in oxidative phosphorylation genes are important considerations in the pathogenesis of dystonia.
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PMID:Leber's hereditary optic neuropathy plus dystonia is caused by a mitochondrial DNA point mutation. 765 63


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