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)

Genetic considerations in movement disorders are described. 1) Familial parkinsonisms are heterogeneous; genes for two of them, 'Lubag' and Waisman syndrome have been mapped to X chromosome, though genes for others do not have been mapped. 2) The responsible gene for Huntington's disease has been cloned recently and named huntingtin. A (CAG)n repeat longer than the normal range was observed in huntingtin gene. The (CAG)n repeat appears to be located within the coding sequence of a predicted approximately 348 kD protein that is widely expressed but unrelated to any known gene. The expansion of an unstable trinucleotide CAG repeat are also the causes of hereditary neurodegenerative diseases such as X-linked bular and spinal muscular atrophy and spinocerebellar ataxia type 1. 3) There are various forms in hereditary dystonia. Although the responsible gene for idiopathic torsion dystonia, inherited as an autosomal dominant pattern, has been mapped to 9q 32-34, genes for others do not have been mapped. 4) The Gilles des la Tourette syndrome (GTS) is a hereditary, neuropsychiatric-neurobehavioral disorder with childhood onset that is characterized by motor and vocal tics. About 80% of the human genome could be excluded as possible site for the GTS gene by studies with over 600 DNA markers in an international collaborative effort, but actual localization has not yet been accomplished.
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PMID:[Genetics in movement disorders]. 827 74

We describe the first Danish family with dentatorubral-pallidoluysian atrophy (DRPLA), containing 16 clinically affected individuals in five generations. Inheritance is autosomal dominant. The disorder was diagnosed as Huntington's disease (HD), but analysis of the IT15 gene for HD revealed normal alleles. The diagnosis of DRPLA was based on the finding of elongated CAG repeats in the B37 gene on chromosome 12 in affected individuals. The age at onset ranged from 13 to 60 years, with the most severe clinical picture being associated with onset in childhood. Clinical features included varying combinations of dementia, euphoria, visuomotor disturbances, speech problems, ataxia, tremor, epilepsy and involuntary movements presenting as chorea, athetosis, and dystonia. We discuss characteristics of DRPLA that may enable the differentiation from HD on a clinical basis. In conclusion, DRPLA should be considered and DNA analysis is recommended in patients manifesting varying combinations of extrapyramidal and cerebellar symptoms, especially when clinical features show pronounced intrafamilial variability, and dyscoordination, tremor, myoclonus, epilepsy, and euphoria are part of the syndrome.
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PMID:Dentatorubral-pallidoluysian atrophy. Clinical features of a five-generation Danish family. 886 94

Huntington's disease (HD) is an inherited, autosomal dominant, neurodegenerative disorder characterized by involuntary choreiform movements, cognitive decline and a progressive neuronal degeneration primarily affecting the striatum. There is at present no effective therapy against this disorder. The gene responsible for the disease (IT15) has been cloned and the molecular defect identified as an expanded polyglutamine tract in the N-terminal region of a protein of unknown function, named huntingtin (The Huntington's Disease Collaborative Research Group, 1993. Cell 72, 971-983). An intense, search for the cell pathology attached to this molecular defect is currently under way [see Sharp and Ross (1996, Neurobiol. Dis. 3, 3-15) for review]. Huntingtin interacts with a number of proteins, some of which have well identified functions, and it has thus been suggested that alterations in glycolysis, vesicle trafficking or apoptosis play a role in the physiopathology of HD. On the other hand data derived from positron emission tomography (PET), magnetic resonance spectroscopy and post-mortem biochemical evidence for a defect in succinate oxidation have suggested the implication of a primary impairment of mitochondrial energy metabolism. All these hypotheses are not necessarily to be opposed and recent findings indicate that the HD mutation could possibly directly alter mitochondrial functions which would in turn activate apoptotic pathways. To test this mitochondrial hypothesis, we studied the effects in rodents and non-human primates of a chronic blockade of succinate oxidation by systemic administration of the mitochondrial toxin 3-nitropropionic acid (3NP). Extensive behavioural and neuropathological evaluations showed that a partial but prolonged energy impairment induced by 3NP is sufficient to replicate most of the clinical and pathophysiological hallmarks of HD, including spontaneous choreiform and dystonic movements, frontal-type cognitive deficits, and progressive heterogeneous striatal degeneration at least partially by apoptosis. 3NP produces the preferential degeneration of the medium-sized spiny GABAergic neurons with a relative sparing of interneurons and afferents, as was observed in HD striatum. The present manuscript reviews the different aspects of this neurotoxic treatment in rodents and non-human primates, and its interest as a phenotypic model of HD to understand the degenerative process of HD and test new therapeutic strategies.
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PMID:Replicating Huntington's disease phenotype in experimental animals. 1051 64

A mutation of the DYT1 gene on chromosome 9q34 has recently been identified as the cause of one form of autosomal-dominantly inherited dystonia. TorsinA, the protein product of this gene, has homology with the family of heat shock proteins, and is found in many peripheral tissues and brain regions. We used a polyclonal antibody to torsinA, developed in our laboratory, to systematically examine the regional distribution of torsinA in rat brain. We find that neurons in all examined structures are immunoreactive for this protein. There is intense immunoreactivity in most neuronal nuclei, with slightly less labeling of cytoplasm and proximal processes. Terminals also are labeled, especially in striatum, neocortex and hippocampus. Double-labeling fluorescence immunohistochemistry using antibodies to neurotransmitters and other neurochemical markers demonstrated that the majority of neurons of all studied neurochemical types are immunoreactive for torsinA. Our findings indicate that torsinA is widely distributed in the central nervous system implicating additional, localized factors, perhaps within the basal ganglia, in the development of dystonia. Many other proteins have a similar widespread distribution, including some which have been implicated in other movement disorders and neurodegenerative processes, such as parkin, alpha-synuclein, ubiquitin and huntingtin. The distribution of torsinA in rat brain as demonstrated by immunohistochemistry contrasts with the results of in situ hybridization studies of torsinA mRNA in human postmortem brain in which a more limited distribution was found.
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PMID:Distribution and immunohistochemical characterization of torsinA immunoreactivity in rat brain. 1133 19

Data obtained from the basal ganglia of postmortem Huntington's disease (HD) brains have revealed that the level of cannabinoid CB1 receptors in striatal efferent neurons decreases in parallel to the dysfunction and subsequent degeneration of these neurons. These findings, and others from rat models of HD generated by lesions with mitochondrial toxins, suggest that the loss of CB1 receptors may be involved in the pathogenesis of the disease. To explore further the changes in the endocannabinoid system, as well as the potential of endocannabinoid-related compounds, we examined the status of CB1 receptors in the HD94 transgenic mouse model of HD. These mice express huntingtin exon 1 with a polyglutamine tract of 94 repeats in a tissue-specific and conditional manner using the tet regulatable system. They develop many features of HD, such as striatal atrophy, intraneuronal aggregates and progressive dystonia. In these animals, we analyzed mRNA levels for the CB1 receptor, in addition to the number of specific binding sites and the activation of GTP-binding proteins by CB1 receptor agonists. mRNA transcripts of the CB1 receptor were significantly decreased in the caudate-putamen of HD transgenic mice compared to age-matched littermate controls. The decrease concurred with a marked reduction in receptor density in both the caudate-putamen and its projection areas such as the globus pallidus, entopeduncular nucleus and substantia nigra pars reticulata. Furthermore, the efficacy of CB1 receptor activation was reduced in the globus pallidus, as determined by agonist-induced [35S]GTPgammaS binding, and tended towards a decrease in the substantia nigra. None of these changes was seen in the cerebral cortex and hippocampus, despite high levels of expression of the mutant protein in these regions. The decrease in CB1 receptor levels was accompanied by a decrease in the proenkephalin-mRNA levels but not in substance P-mRNA levels. Taken together, these results suggest that the loss of CB1 receptor might be preferential to the enkephalinergic CB1 receptor-containing striatopallidal neurons, and further implicate the CB1 receptor to the subsequent HD symptomatology and neuropathology.
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PMID:Loss of mRNA levels, binding and activation of GTP-binding proteins for cannabinoid CB1 receptors in the basal ganglia of a transgenic model of Huntington's disease. 1186 29

Huntington's disease (HD) is an autosomal dominant, inherited, neuropsychiatric disease which gives rise to progressive motor, cognitive and behavioural symptoms. Its core pathology involves degeneration of the basal ganglia, in particular, the caudate and putamen, and is caused by a single autosomal gene coding for a mutated form of the protein, huntingtin. At the present time, the only treatment options available in HD are symptomatic. There are several substances available today for the treatment of chorea. Other neurological symptoms, such as dystonia, can be treated, but treatment is associated with a high risk of adverse events. Psychiatric symptoms, on the other hand, are often amenable to treatment and relief of these symptoms may provide significant improvement in quality of life.
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PMID:A review of the treatment options for Huntington's disease. 1510 62

Huntington's disease is an autosomal-dominant, progressive neurodegenerative disorder with a distinct phenotype, including chorea and dystonia, incoordination, cognitive decline, and behavioural difficulties. Typically, onset of symptoms is in middle-age after affected individuals have had children, but the disorder can manifest at any time between infancy and senescence. The mutant protein in Huntington's disease--huntingtin--results from an expanded CAG repeat leading to a polyglutamine strand of variable length at the N-terminus. Evidence suggests that this tail confers a toxic gain of function. The precise pathophysiological mechanisms of Huntington's disease are poorly understood, but research in transgenic animal models of the disorder is providing insight into causative factors and potential treatments.
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PMID:Huntington's disease. 1724 Feb 89

Huntington's disease (HD) is a neurological disorder characterized by striatal degeneration, motor symptoms and complex neuropsychiatric alterations. There is currently no genetic model of HD in non-human primates (NHPs). In this study we investigated neuropathological and behavioral changes following injections of lentiviral vectors encoding a fragment of mutated huntingtin (Htt171-82Q) into the dorsolateral sensorimotor putamen of macaques. In the first study, we injected Htt171-82Q into one hemisphere and a lentiviral vector encoding Htt171-19Q or saline into the other, and studied the animals for 9 weeks. During this period, when apomorphine was administered into Htt171-19Q/82Q animals, it induced progressive chorea, dystonia and ipsilateral turning behavior, whereas animals infected with Htt171-19Q/19Q showed no abnormal behavior. After 9 weeks, the putamen of animals infected with Htt171-82Q presented neuritic and nuclear Htt aggregates, reactive astrocytes and loss of the neuronal marker NeuN. In a second study, we injected Htt171-82Q bilaterally into the dorsolateral putamen. From week 15 after infection, these animals progressively developed spontaneous dyskinesia of the legs, arms, and trunk and, in one case, tics that persisted for up to 30 weeks. The present study constitutes a proof-of-principle for the development of a genetic model of HD in NHP.
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PMID:Expression of mutated huntingtin fragment in the putamen is sufficient to produce abnormal movement in non-human primates. 1750 77

Non-human primates are valuable for modelling human disorders and for developing therapeutic strategies; however, little work has been reported in establishing transgenic non-human primate models of human diseases. Huntington's disease (HD) is an autosomal dominant neurodegenerative disorder characterized by motor impairment, cognitive deterioration and psychiatric disturbances followed by death within 10-15 years of the onset of the symptoms. HD is caused by the expansion of cytosine-adenine-guanine (CAG, translated into glutamine) trinucleotide repeats in the first exon of the human huntingtin (HTT) gene. Mutant HTT with expanded polyglutamine (polyQ) is widely expressed in the brain and peripheral tissues, but causes selective neurodegeneration that is most prominent in the striatum and cortex of the brain. Although rodent models of HD have been developed, these models do not satisfactorily parallel the brain changes and behavioural features observed in HD patients. Because of the close physiological, neurological and genetic similarities between humans and higher primates, monkeys can serve as very useful models for understanding human physiology and diseases. Here we report our progress in developing a transgenic model of HD in a rhesus macaque that expresses polyglutamine-expanded HTT. Hallmark features of HD, including nuclear inclusions and neuropil aggregates, were observed in the brains of the HD transgenic monkeys. Additionally, the transgenic monkeys showed important clinical features of HD, including dystonia and chorea. A transgenic HD monkey model may open the way to understanding the underlying biology of HD better, and to the development of potential therapies. Moreover, our data suggest that it will be feasible to generate valuable non-human primate models of HD and possibly other human genetic diseases.
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PMID:Towards a transgenic model of Huntington's disease in a non-human primate. 1848 17

Several human neurodegenerative disorders are characterized by the accumulation of 8-oxo-7,8-dihydroguanine (8-oxodG) in the DNA of affected neurons. This can occur either through direct oxidation of DNA guanine or via incorporation of the oxidized nucleotide during replication. Hydrolases that degrade oxidized purine nucleoside triphosphates normally minimize this incorporation. hMTH1 is the major human hydrolase. It degrades both 8-oxodGTP and 8-oxoGTP to the corresponding monophosphates. To investigate whether the incorporation of oxidized nucleic acid precursors contributes to neurodegeneration, we constructed a transgenic mouse in which the human hMTH1 8-oxodGTPase is expressed. hMTH1 expression protected embryonic fibroblasts and mouse tissues against the effects of oxidants. Wild-type mice exposed to 3-nitropropionic acid develop neuropathological and behavioural symptoms that resemble those of Huntington's disease. hMTH1 transgene expression conferred a dramatic protection against these Huntington's disease-like symptoms, including weight loss, dystonia and gait abnormalities, striatal degeneration, and death. In a complementary approach, an in vitro genetic model for Huntington's disease was also used. hMTH1 expression protected progenitor striatal cells containing an expanded CAG repeat of the huntingtin gene from toxicity associated with expression of the mutant huntingtin. The findings implicate oxidized nucleic acid precursors in the neuropathological features of Huntington's disease and identify the utilization of oxidized nucleoside triphosphates by striatal cells as a significant contributor to the pathogenesis of this disorder.
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PMID:A role for oxidized DNA precursors in Huntington's disease-like striatal neurodegeneration. 1902 7


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