UMLS:C0004134 - FACTA Search

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

We describe a novel transthyretin mutation at codon 18 where Asp is replaced by Gly (D18G) in a Hungarian kindred. This mutation is associated with meningocerebrovascular amyloidosis, producing dementia, ataxia, and spasticity. Fifty different transthyretin mutations are related to amyloid deposition, typically producing a peripheral neuropathy or cardiac dysfunction. These symptoms are absent in this family. Up to now, amyloid-beta (A beta), cystatin C, and prion proteins have been known to be deposited as amyloid in the brain, leading to stroke or dementia. With this report we establish that transthyretin amyloid deposition can also produce central nervous system dysfunction as the major clinical symptom.
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PMID:Meningocerebrovascular amyloidosis associated with a novel transthyretin mis-sense mutation at codon 18 (TTRD 18G) 857 96

The structure of a Nova protein K homology (KH) domain recognizing single-stranded RNA has been determined at 2.4 A resolution. Mammalian Nova antigens (1 and 2) constitute an important family of regulators of RNA metabolism in neurons, first identified using sera from cancer patients with the autoimmune disorder paraneoplastic opsoclonus-myoclonus ataxia (POMA). The structure of the third KH domain (KH3) of Nova-2 bound to a stem loop RNA resembles a molecular vise, with 5'-Ura-Cyt-Ade-Cyt-3' pinioned between an invariant Gly-X-X-Gly motif and the variable loop. Tetranucleotide recognition is supported by an aliphatic alpha helix/beta sheet RNA-binding platform, which mimics 5'-Ura-Gua-3' by making Watson-Crick-like hydrogen bonds with 5'-Cyt-Ade-3'. Sequence conservation suggests that fragile X mental retardation results from perturbation of RNA binding by the FMR1 protein.
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PMID:Sequence-specific RNA binding by a Nova KH domain: implications for paraneoplastic disease and the fragile X syndrome. 1067 14

A four-year-old boy presented with moderate ataxia triggered by a minor head trauma several weeks ago. Discrepantly severe signal changes of cerebral white matter with almost CSF-isointense signal on all pulse sequences were detected at cranial MRI. Localized proton MR spectroscopy of cerebral white matter demonstrated an even decrease of all metabolites. Glycine was found elevated in CSF. This pattern of clinical history, MR imaging and spectroscopy features and elevated glycine in CSF is characteristic for a novel entity amongst the leukoencephalopathies of childhood. It was originally termed "myelinopathia centralis diffusa" and renamed "vanishing white matter disease" later.
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PMID:Myelinopathia centralis diffusa (vanishing white matter disease) in a four-year-old boy. 1509 52

Inasmuch as glutamate is the main excitatory neurotransmitter in the central nervous system, strategies aimed at counteracting glutamate excitotoxicity, which is at least partially involved in many acute neurologic, chronic neurodegenerative and psychiatric diseases, are challenging. Blockade of the NMDA receptor was identified as one way of achieving selective antagonism and overcoming glutamate neurotoxicity, yet not without liabilities. Glycine site antagonism of the NMDA receptor in 1987 offered a significant advance in blocking this receptor because such drugs were shown to lack most of the side effects, such as memory impairment, ataxia, lack of motor coordination and psychotomimetic effects, which accompanied competitive and non-competitive NMDA receptor antagonists. To date, much has been done to improve the structure-activity relationship (SAR) of compounds resulting in the synthesis of ACEA 1021. It is unclear, however, whether further chemical substitutions will lead to an improved compound. Many studies have been performed with ACEA 1021 and although there are much in vitro and in vivo data to support its neuroprotective effects and improved safety profile, there is very little published information regarding its clinical pharmacology. In order to properly evaluate the true potential for ACEA 1021 in acute and chronic CNS disorders additional longer term safety and efficacy data in humans are needed.
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PMID:ACEA 1021: flip or flop? 1559 82

Inherited disorders of neurotransmitters are a group of neurometabolic syndromes attributable to a primary disturbance of neurotransmitter metabolism or transport. This is an enlarging group of recognized disorders requiring specialized diagnostic procedures for detection. This review considers clinical disorders of biopterin, catecholamines, serotonin, glycine, pyridoxine, and GABA metabolism. Newly described syndromes such as cerebral folate deficiency and pyridoxal-5-phosphate dependency are included. The disorders of the metabolic pathways of biopterin, catecholamines, and serotonin are linked due to their common synthetic components. Glycine encephalopathy represents an enlarging phenotype related to abnormalities of the glycine degradative cleavage system. Both pyridoxine and pyridoxal-5-phosphate dependency need to be considered in refractory neonatal seizures. The most common disorder of GABA metabolism is SSADH deficiency, which has a broad phenotype of mental retardation, epilepsy, ataxia, and hyporeflexia and which invokes the combined problems of elevated brain GABA and GHB.
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PMID:Inherited disorders of neurotransmitters in children and adults. 1629 54

The HERC gene family encodes proteins with two characteristic domains: HECT and RCC1-like. Proteins with HECT domains have been described to function as ubiquitin ligases, and those that contain RCC1-like domains have been reported to function as GTPases regulators. These two activities are essential in a number of important cellular processes such as cell cycle, cell signaling, and membrane trafficking. Mutations affecting these domains have been found associated with retinitis pigmentosa, amyotrophic lateral sclerosis, and cancer. In humans, six HERC genes have been reported which encode two subgroups of HERC proteins: large (HERC1-2) and small (HERC3-6). The giant HERC1 protein was the first to be identified. It has been involved in membrane trafficking and cell proliferation/growth through its interactions with clathrin, M2-pyruvate kinase, and TSC2 proteins. Mutations affecting other members of the HERC family have been found to be associated with sterility and growth retardation. Here, we report the characterization of a recessive mutation named tambaleante, which causes progressive Purkinje cell degeneration leading to severe ataxia with reduced growth and lifespan in homozygous mice aged over two months. We mapped this mutation in mouse chromosome 9 and then performed positional cloning. We found a G<-->A transition at position 1448, causing a Gly to Glu substitution (Gly483Glu) in the highly conserved N-terminal RCC1-like domain of the HERC1 protein. Successful transgenic rescue, with either a mouse BAC containing the normal copy of Herc1 or with the human HERC1 cDNA, validated our findings. Histological and biochemical studies revealed extensive autophagy associated with an increase of the mutant protein level and a decrease of mTOR activity. Our observations concerning this first mutation in the Herc1 gene contribute to the functional annotation of the encoded E3 ubiquitin ligase and underline the crucial and unexpected role of this protein in Purkinje cell physiology.
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PMID:Progressive Purkinje cell degeneration in tambaleante mutant mice is a consequence of a missense mutation in HERC1 E3 ubiquitin ligase. 2004 Dec 18

Nine human neurodegenerative diseases, including Huntington's disease and several spinocerebellar ataxia, are associated to the aggregation of proteins comprising an extended tract of consecutive glutamine residues (polyQs) once it exceeds a certain length threshold. This event is believed to be the consequence of the expansion of polyCAG codons during the replication process. This is in apparent contradiction with the fact that many polyQs-containing proteins remain soluble and are encoded by invariant genes in a number of eukaryotes. The latter suggests that polyQs expansion and/or aggregation might be counter-selected through a genetic and/or protein context. To identify this context, we designed a software that scrutinize entire proteomes in search for imperfect polyQs. The nature of residues flanking the polyQs and that of residues other than Gln within polyQs (insertions) were assessed. We discovered strong amino acid residue biases robustly associated to polyQs in the 15 eukaryotic proteomes we examined, with an over-representation of Pro, Leu and His and an under-representation of Asp, Cys and Gly amino acid residues. These biases are conserved amongst unrelated proteins and are independent of specific functional classes. Our findings suggest that specific residues have been co-selected with polyQs during evolution. We discuss the possible selective pressures responsible of the observed biases.
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PMID:Polyglutamine repeats are associated to specific sequence biases that are conserved among eukaryotes. 2231 32

Autosomal dominant cerebellar ataxias (ADCAs) comprise a group of genetically heterogeneous neurodegenerative disorders among which spinocerebellar ataxia type 3 (SCA3) represents the most common form of SCAs worldwide. The fragments of SCA3/MJD gene,which is the member of family GXPL1,were amplified by polymerase chain reaction (PCR). The PCR products of SCA3/MJD gene were detected with capillary electrophoresis (CE) and sequencing to evaluate the size of CAG repeats, feature in the transmission and the mutation in the family with SCA3 in Guangxi province. The results showed that the exon 10 of the SCA3/MJD gene contains 64-71 CAG repeats in all of the affected individuals and three asymptomatic carriers of the family. The number of the CAG repeats during transmission in the normal individuals carrying CGG allele remains consistent, suggesting that CGG allele could have no effect on intergenerational stability of CAG repeats in normal individuals. In addition, two novel point mutations were identified: IVS9-113 T > C in the intronic region and a missense mutation 220 G > A (Glu > Gly) in the encoding region. These two novel point mutations have not been reported and the effect of the mutations on the phenotype of SCA3 is not clear.
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PMID:[Analysis of SCA3/MJD3 gene mutation and genetic polymorphism in a guangxi family with spinocerebellar ataxia 3]. 2457 13

A hexanucleotide GGCCTG repeat expansion in intron 1 of the nucleolar protein 56 gene causes spinocerebellar ataxia type 36 (SCA36), which is a relatively pure cerebellar ataxia with progressive motor neuron involvement. In this study SCA36 cell models were generated by introducing expanded GGCCTG/CAGGCC repeats into cultured Neuro2A cells. Sense (GGCCUG)_exp but not antisense (CAGGCC)_exp RNA foci were detected in the cells, consistent with observations in autopsied brains of patients with SCA36. Glycine-proline dipeptide repeat (DPR) formation due to repeat-associated non-ATG translation rarely occurred in cells expressing expanded GGCCTG repeats; in contrast, cells harboring expanded c9orf72 GGGGCC/GGCCCC repeats robustly expressed DPR proteins. There are currently no effective treatments for microsatellite repeat expansion diseases including SCA36. In order to identify potentially useful therapies, we screened five candidate chemical compounds for their ability to diminish the toxicity of expanded SCA36 repeats and evaluated whether small interfering RNA-mediated silencing of Supt4a/Supt5, the murine ortholog of the yeast transcriptional elongation factor Spt4/Spt5, has therapeutic potential based on RNA foci quantification and cytotoxicity assays. Supt4a knockdown and erythromycin treatment suppressed the formation of (GGCCUG)_exp RNA foci and DPR protein formation via regulation of (GGCCUG)_exp mRNA, thereby ameliorating the cytotoxicity in SCA36 cell models. These data provide a basis for developing effective therapeutic strategies for the treatment of SCA36 and other repeat expansion disorders.
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PMID:Suppression of the yeast elongation factor Spt4 ortholog reduces expanded SCA36 GGCCUG repeat aggregation and cytotoxicity. 3061 Aug 77

Because of their sessile lifestyle, plants are inescapably exposed to various kinds of environmental stresses throughout their lifetime. Therefore, to regulate their growth and development, plants constantly monitor the environmental signals and respond appropriately. However, these environmental stress factors, along with some endogenous metabolites, generated in response to environmental stress factors often induce various forms of DNA damage in plants and thus promote genome instability. To maintain the genomic integrity, plants have developed an extensive, sophisticated and coordinated cellular signaling mechanism known as DNA damage response or DDR. DDR evokes a signaling process which initiates with the sensing of DNA damage and followed by the subsequent activation of downstream pathways in many directions to repair and eliminate the harmful effects of DNA damages. SUPPRESSOR OF GAMMA RESPONSE 1 (SOG1), one of the newly identified components of DDR in plant genome, appears to play central role in this signaling network. SOG1 is a member of NAC [NO APICAL MERISTEM (NAM), ARABIDOPSIS TRANSCRIPTION ACTIVATION FACTOR (ATAF), CUP-SHAPED COTYLEDON (CUC)] domain family of transcription factors and involved in a diverse array of function in plants, encompassing transcriptional response to DNA damage, cell cycle checkpoint functions, ATAXIA-TELANGIECTASIA-MUTATED (ATM) or ATAXIA TELANGIECTASIA AND RAD3-RELATED (ATR) mediated activation of DNA damage response and repair, functioning in programmed cell death and regulation of induction of endoreduplication. Although most of the functional studies on SOG1 have been reported in Arabidopsis, some recent reports have indicated diverse functions of SOG1 in various other plant species, including Glycine max, Medicago truncatula, Sorghum bicolour, Oryza sativa and Zea mays, respectively. The remarkable functional diversity shown by SOG1 protein indicates its multitasking capacity. In this review, we integrate information mainly related to functional aspects of SOG1 in the context of DDR in plants. Considering the important role of SOG1 in DDR and its functional diversity, in-depth functional study of this crucial regulatory protein can provide further potential information on genome stability maintenance mechanism in plants in the context of changing environmental condition.
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PMID:An insight into the mechanism of DNA damage response in plants- role of SUPPRESSOR OF GAMMA RESPONSE 1: An overview. 3200 47

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