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:C0004134 (ataxia)
15,886 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The clinical presentations and aetiologies of a series of 53 cases of bilateral vestibular failure (BVF) seen by the authors over a decade were evaluated by retrospective review of the medical records. Thirty-nine per cent of patients had associated neurological disease; 13% had a progressive cerebellar syndrome with disabling gait ataxia, abnormal eye movements and cerebellar atrophy on neuro-imaging. BVF was usually unsuspected. Nine per cent had cranial or peripheral neuropathies and in this group there was no abnormality of brain stem/cerebellar oculomotor function, but hearing loss was common. Eleven per cent revealed BVF and hearing loss secondary to meningitis, and 6% had other neurological disorders. Idiopathic BVF was found in 21% of cases, characterised by paroxysmal vertigo and/or oscillopsia, but no abnormal clinical signs. Gentamicin ototoxicity accounted for a further 17%, while autoimmune disease was present in 9% of patients. Otological or neoplastic disease was diagnosed in the remaining 13% of patients. It was concluded that neurological, audiological and ocular motor assessments allow the probable cause of BVF to be defined in approximately 80% of cases. A group of BVF related to autoimmune pathologies is reported for the first time, indicating the need for immunological screening. Idiopathic BVF may present with only minor visual or vestibular symptoms, while in patients with cerebellar degeneration, BVF may be unsuspected and, thus, underdiagnosed.
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PMID:Bilateral loss of vestibular function: clinical findings in 53 patients. 966 81

Murine leukemia virus (MuLV) clone Fr98 is a recombinant polytropic virus that causes neurological disease characterized by ataxia in susceptible mouse strains. The envelope gene of Fr98 has been previously shown to encode at least two separate neurovirulence determinants. In the present study, the determinant encoded within the EcoRI/AvrII fragment of the envelope gene was further defined. In these experiments, neurovirulence was associated with a change from a serine to an arginine at position 195 and a glycine to an alanine at position 198 within the envelope protein. Neurovirulent and nonvirulent virus clones, which differed only at these two amino acid residues, showed no difference in the type or location of cells infected. Furthermore, equivalent levels of viral p30 capsid protein were detected in the brains of mice infected with either the neurovirulent or nonvirulent virus clones. These results were consistent with the interpretation that the envelope protein of the neurovirulent virus differed from that of the nonvirulent virus by having a greater toxic effect on central nervous system function.
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PMID:Mapping of a neurovirulence determinant within the envelope protein of a polytropic murine retrovirus: induction of central nervous system disease by low levels of virus. 972 Dec 29

Homozygous leaner mice carry an autosomal recessive mutation in the Ca2+ channel subunit gene, alpha1A, causing them to exhibit severe ataxia, petit-mal-like epilepsy and a myoclonus-like movement disorder. Expression of alpha1A mRNA in cerebella from 20-day-old homozygous leaner mice was compared to control mice, using in situ hybridization histochemistry. Expression of alpha1A protein was examined in cerebella from 20-day-old homozygous leaner and control mice using immunocytochemistry. No differences in either mRNA or protein expression of the alpha1A subunit were observed when homozygous leaner mice were compared to age-matched controls. Therefore, functional alterations in P/Q-Type Ca2+ channels containing the alpha1A subunit need to be explored to further understand the relationship of mutations in the alpha1A gene to the pathogenesis of the neurologic disorders occurring in leaner mice.
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PMID:Expression of calcium channel alpha1A mRNA and protein in the leaner mouse (tgla/tgla) cerebellum. 972 1

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

Infantile onset spinocerebellar ataxia (IOSCA, MIM 271245) is a recessively inherited, progressive neurological disease, which we have described in 19 Finnish patients. The clinical symptoms of IOSCA include ataxia, athetosis, hypotonia, hearing deficit, ophthalmoplegia, sensory neuropathy, female hypogonadism, and epilepsy as a late manifestation. We have mapped the IOSCA locus to 10q24. In our two autopsy cases of IOSCA, the neuropathological findings were almost uniform. The cerebral hemispheres were quite well preserved, but the brain stem and the cerebellum were moderately atrophic. The most severe atrophic changes were seen in the spinal cord: in the dorsal roots, the posterior columns and the posterior spinocerebellar tracts. There was a severe neuronal loss in the dorsal nucleus (Clarke's column) of both cases and slight atrophy of the intermediolateral column in one case. The cerebellar peduncles, the inferior olives, the accessory cuneate nuclei and especially the dentate nuclei were atrophic and gliotic. The eighth cranial nerve and nucleus were atrophic. The ventral pontine nuclei and transverse fibers were slightly affected. Tegmental nuclei and tracts, especially sensory structures, were more severely affected. In mesencephalon, there was atrophy of the oculomotor nuclear complex and periaqueductal gray matter. The cerebellar cortex showed patchy atrophy. Degenerative changes were seen in dorsal root ganglia, and there was a severe axonal loss in the sural nerve. The neuropathological picture of IOSCA thus seems close to that reported in Friedreich's ataxia, another recessively inherited usually childhood-onset ataxia.
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PMID:Infantile onset spinocerebellar ataxia with sensory neuropathy (IOSCA): neuropathological features. 987 82

What do epilepsy, migraine headache, deafness, episodic ataxia, periodic paralysis, malignant hyperthermia, and generalized myotonia have in common? These human neurological disorders can be caused by mutations in genes for ion channels. Many of the channel diseases are "paroxysmal disorders" whose principal symptoms occur intermittently in individuals who otherwise may be healthy and active. Some of the ion channels that cause human neurological disease are old acquaintances previously cloned and extensively studied by channel specialists. In other cases, however, disease-gene hunts have led the way to the identification of new channel genes. Progress in the study of ion channels has made it possible to analyze the effects of human neurological disease-causing channel mutations at the level of the single channel, the subcellular domain, the neuronal network, and the behaving organism.
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PMID:Ion channel genes and human neurological disease: recent progress, prospects, and challenges. 1022 Mar 66

To investigate whether the expansion of CAG repeats of the TATA-binding protein (TBP) gene is involved in the pathogenesis of neurodegenerative diseases, we have screened 118 patients with various forms of neurological disease and identified a sporadic-onset patient with unique neurologic symptoms consisting of ataxia and intellectual deterioration associated with de novo expansion of the CAG repeat of the TBP gene. The mutant TBP with an expanded polyglutamine stretch (63 glutamines) was demonstrated to be expressed in lymphoblastoid cell lines at a level comparable with that of wild-type TBP. The CAG repeat of the TBP gene consists of impure CAG repeat and the de novo expansion involves partial duplication of the CAG repeat. The present study provides new insights into sporadic-onset trinucleotide repeat diseases that involve de novo CAG repeat expansion.
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PMID:A neurological disease caused by an expanded CAG trinucleotide repeat in the TATA-binding protein gene: a new polyglutamine disease? 1048 74

The 1960s were a period of great flowering in the recognition of neurologic disorders in children. The so-called ataxic cerebral palsies were an especially fertile field waiting for clarification. Congenital ataxia coupled with hyperpnea-apnea, abnormal eye movements, and retardation was identified as an autosomal-recessive syndrome eponimically associated with the senior author, Marie Joubert. The disorder, though rare, is increasingly recognized and a lay society dedicated to family support and research has been formed. In preparation for a recent symposium the original proband was re-examined 30 years later and the manifestations in adults clarified. Severe dysarthria was the most striking feature in this man, the hyperpnea-apnea had diminished, and the abnormal eye movements were less striking. Ataxia was still present but not severe. Poor judgment and borderline intelligence rounded out the clinical picture. Modern imaging has clarified, in part, the anatomic basis of this syndrome.
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PMID:History of Joubert syndrome and a 30-year follow-up of the original proband. 1048

Triplet repeat expansion diseases (TREDs) are characterized by co-incidence between neurological disease manifestation and amplification of specific trinucleotide repeats in different but defined loci. This class of mutations was first identified in 1991 as the cause of spinal and bulbar muscular atrophy (SBMA) and fragile X syndrome (FRAXA). Since then, TNR (tri-nucleotide repeat) expansions have been found to be the causative mechanism in 11 other neurodegenerative disorders. Short cytosine-adenine-guanine (CAG) expansions are characteristic for Huntington's disease (HD), spinal and bulbar muscular atrophy (SBMA), dentatorubral-pallidoluysian atrophy (DRPLA) and spinocerebellar ataxia (SCA) type 1, 2, 3, 6 and 7. In the normal population, the TNR units are polymorphic but transmitted stably from one generation to the next. However, in the above disorders the TNRs are expanded into the disease range and subjected to meiotic instability in a length-dependent manner. Thus, disease-associated, expanded TNRs tend to increase in length from generation to generation. This explains the phenomenon of anticipation associated with these disorders. TNR expansions result in polyglutamine (Q)n expansions in the corresponding proteins. Such mutant proteins tend to precipitate as a result of self-aggregation leading to the formation of neuronal nuclear inclusions and, hence, selective degeneration and loss of neuronal cells.
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PMID:[Dynamic mutations in hereditary neurodegenerative disorders]. 1050 53

Following intraperitoneal (IP) inoculation of neonatal mice, the polytropic recombinant murine leukemia virus (MuLV), Fr98, induces a severe brain disease characterized by ataxia, seizures and death. In contrast, no apparent clinical neurological disease is seen after IP infection with Fr54, a polytropic MuLV differing from Fr98 in its envelope gene sequences. In the brain both Fr98 and Fr54 infect primarily capillary endothelial cells and microglia. However, the level of microglial infection by Fr98 is twofold higher than by Fr54, which might account for the difference in neurovirulence. In the present study, in order to test directly whether an increase in the number of microglia infected by Fr54 would be sufficient to induce clinical disease, we attempted to increase the level of Fr54 in the brain by changing the route of infection. After intraventricular inoculation with Fr54-infected neural stem cells (clone C17.2), a well-established vehicle for delivery of viruses and genes to the brain, mice became ataxic and died 4 weeks postinfection. In these mice induction of brain disease was correlated with a higher level of viral antigen in the cerebrum and an increase in the number of infected microglial cells in all brain regions examined compared with mice inoculated IP. In contrast, mice inoculated with neural stem cells infected with an ecotropic nonneurovirulent murine leukemia virus, FB29, developed no clinical disease in spite of evidence for widespread infection of microglia in brain. Since the main differences between Fr54 and FB29 are in the SU (gp70) region of the envelope gene, this region is most likely to account for the differences in induction of CNS disease seen in the current experiments.
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PMID:Increased neurovirulence of polytropic mouse retroviruses delivered by inoculation of brain with infected neural stem cells. 1054 79


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