UMLS:C0004134 - FACTA Search

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)

Alzheimer disease (AD) is a devastating neurodegenerative disease with complex and strong genetic inheritance. Four genes have been established to either cause familial early onset AD (APP, PSEN1, and PSEN2) or to increase susceptibility for late onset AD (APOE). To date approximately 80% of the late onset AD genetic variance remains elusive. Recently our genome-wide association screen identified four novel late onset AD candidate genes. Ataxin 1 (ATXN1) is one of these four AD candidate genes and has been indicated to be the disease gene for spinocerebellar ataxia type 1, which is also a neurodegenerative disease. Mounting evidence suggests that the excessive accumulation of Abeta, the proteolytic product of beta-amyloid precursor protein (APP), is the primary AD pathological event. In this study, we ask whether ATXN1 may lead to AD pathogenesis by affecting Abeta and APP processing utilizing RNA interference in a human neuronal cell model and mouse primary cortical neurons. We show that knock-down of ATXN1 significantly increases the levels of both Abeta40 and Abeta42. This effect could be rescued with concurrent overexpression of ATXN1. Moreover, overexpression of ATXN1 decreased Abeta levels. Regarding the underlying molecular mechanism, we show that the effect of ATXN1 expression on Abeta levels is modulated via beta-secretase cleavage of APP. Taken together, ATXN1 functions as a genetic risk modifier that contributes to AD pathogenesis through a loss-of-function mechanism by regulating beta-secretase cleavage of APP and Abeta levels.
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PMID:Loss of function of ATXN1 increases amyloid beta-protein levels by potentiating beta-secretase processing of beta-amyloid precursor protein. 2009 58

Presenile dementia may be caused by a variety of different genetic conditions such as familial Alzheimer's disease, prion disease as well as several hereditary metabolic disorders including adult onset neuronal ceroid lipofuscinosis. We report a multigenerational family with autosomal dominant presenile dementia harboring a cerebellar phenotype. Longitudinal clinical work-up in affected family members revealed ataxia accompanied by progressive cognitive decline, rapid loss of global cognition, memory, visuospatial and frontal-executive functions accompanied by progressive motor deterioration and early death. Linkage analysis and exome sequencing identified the p.S170F mutation of Presenilin 1 in all affected individuals, which is known to be associated with very early onset Alzheimer's disease. Additional search for potentially modifying variants revealed in all affected individuals of the third generation a paternally inherited variant p.A58V (rs17571) of Cathepsin D which is considered an independent risk factor for Alzheimer's disease. Involvement of cerebellar and brainstem structures leading to functional decortication in addition to rapid progressive presenile dementia in this PSEN1 family may therefore indicate an epistatic effect of the p.A58V Cathepsin D variant on the deleterious course of this disease.
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PMID:Cerebellar dysfunction in a family harboring the PSEN1 mutation co-segregating with a cathepsin D variant p.A58V. 2341 46

Mutations in presenilin 1 (PSEN1) are the most common cause of autosomal dominant Alzheimer's disease. Here, we report a Canadian-Vietnamese family carrying a PSEN1 p.Met233Val mutation with an exceptionally early and severe presentation that includes a wide range of atypical symptoms, including prominent ataxia, Parkinsonism, spasticity, dystonia, action tremor, myoclonus, bulbar symptoms, seizures, hallucinations and behavioral changes. Whole-exome sequencing (WES) was performed on the affected proband after many assessments over several years proved diagnostically inconclusive. The results were analyzed using the AnnEx "Annotated Exomes" browser (http://annex.can.ubc.ca), a web-based platform that facilitates WES variant annotation and interpretation. High-throughput sequencing can be especially informative for complex neurological disorders, and WES warrants consideration as a first-line clinical test. Data analyses facilitated by web-based bioinformatics tools have great potential for novel insight, although confirmatory, diagnostically accredited Sanger sequencing is recommended prior to reporting.
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PMID:PSEN1 p.Met233Val in a Complex Neurodegenerative Movement and Neuropsychiatric Disorder. 2931 80

PSEN1 gene is considered to be the most common gene, which is responsible for the development of an autosomal dominant Alzheimer disease with early onset and sometimes broad phenotype. We present a patient with a spinocerebellar ataxia (SCA)-like phenotype who was found to carry an M233V mutation. General and neurological exam was carried out. Brain MRI as well as genetic testing for SCAs 1, 2, 3, 6, and 17 were performed. The patient was then referred for a next-generation sequencing-based gene panel test with 723 genes included. A 26-year-old man of an Azerbaijani origin presented with a progressive impairment of coordination followed by memory impairment. Family history was positive for a similar disorder suggesting autosomal dominant inheritance. Brain MRI showed bilateral hippocampal atrophy (more pronounced in the left), as well as mild atrophy of the left temporoparietal cortex. Tests for SCAs 1, 2, 3, 6, and 17 came negative. Gene panel test showed c.697A > G heterozygous variant in the PSEN1 gene leading to a M233V amino acid change, which was validated by a Sanger sequencing. So far, M233V mutation has not been associated with a combination of cerebellar and cognitive features at onset. Our case contributes to a better characterization of the PSEN1 mutations and expands the phenotype of the M233V carriers. We propose to consider PSEN1 mutations in patients presenting with an SCA-like phenotype but negative for common types of SCA.
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PMID:Spinocerebellar Ataxia-Like Presentation of the M233V PSEN1 Mutation. 3259 61