Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
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Target Concepts:
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Query: UMLS:C0027066 (
myoclonus
)
4,275
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Despite clinical and genetic complexity of dystonia, knowledge of primary torsion dystonia and dystonia-plus syndromes was recently expanded. Part of the category of primary dystonia includes genetic forms (DYT1, DYT6, DYT13). The DYTI mutation, with predominant limbs (95p. 100) and neck and trunk (25-35p. 100) involvement accounts for about 80p. 100 of the early onset cases in the Ashkenazi population and of 16-53p. 100 in the non- Ashkenazi population. The dystonia-plus group is defined by the association of parkinsonism (dopa-responsive-dystonia and rapid-onset dystonia-parkinsonism) or
myoclonus
(
myoclonus
-dystonia). Dopa-responsive-dystonia is a heterogeneous group with several causes (GCH1 mutations, compound mutations in GCH1, mutations in TH gene, or in 6-PTS gene). Differential diagnosis could be juvenile parkinsonism (
parkin
mutations). Epsilon-sarcoglycan mutation accounts for a sub-group of
myoclonus
-dystonia, but other genes are still unidentified. The vast majority of dystonia are sporadic and still unexplained. Functional imaging may bring new insights in disease mechanisms. Because of phenotypic overlaps, within dystonia, new classifications based on functional markers may emerge.
...
PMID:Dystonia: phenotypes and genotypes. 1462 53
Individuals with familial Parkinson's disease (PD) due to a monogenic defect can show considerable clinical and neuropathological variability. To identify factors underlying this variability, histopathological analysis was performed in two clinically different A53T alpha-synuclein heterozygotes from Family H, a multigenerational alpha-synuclein A53T kindred. To determine whether additional genetic factors could contribute to phenotypic variability, Family H and another multigenerational A53T kindred were analyzed for
parkin
polymorphisms. We identified a previously described variant in
parkin
exon 4 associated with increased PD risk (S167N). The two A53T heterozygotes had markedly different neuropathology and different
parkin
genotypes: A N167 homozygote had early onset rapidly progressive disease, early dementia,
myoclonus
and sleep disorder, while a S167 homozygote had late onset, slowly progressive disease and late dementia. Both had brainstem, cortical, and intraneuritic Lewy bodies (LB). The N167 individual had widespread cortical neurofibrillary degeneration, while the S167 individual had only medial temporal lobe neurofibrillary degeneration. The N167 individual had severe neuronal loss in CA2 associated with Lewy neurites (LN), while the S167 individual had severe neuronal loss in CA1 associated with TDP-43 immunoreactive neuronal inclusions. These findings implicate TDP-43 in the pathology of familial PD and suggest that
parkin
may act as a modifier of the A53T alpha-synuclein phenotype of familial PD. Furthermore, they suggest a mechanism by which a rare genetic variant that is associated with a minor increase of PD risk in the heterozygous state may, in the homozygous state, exacerbate a disease phenotype associated with a highly penetrant dominant allele.
...
PMID:Clinical, neuropathological and genotypic variability in SNCA A53T familial Parkinson's disease. Variability in familial Parkinson's disease. 1838 63
Mutations in seven genes are robustly associated with autosomal dominant (SNCA, LRRK2, EIF4G1, VPS35) or recessive (
parkin
/PARK2, PINK1, DJ1/PARK7) Parkinson's disease (PD) or parkinsonism. Changes in a long list of additional genes have been suggested as causes for parkinsonism or PD, including genes for hereditary ataxias (ATXN2, ATXN3, FMR1), frontotemporal dementia (C9ORF72, GRN, MAPT, TARDBP), DYT5 (GCH1, TH, SPR), and others (ATP13A2, CSF1R, DNAJC6, FBXO, GIGYF2, HTRA2, PLA2G6, POLG, SPG11, UCHL1). This review summarizes the clinical features of diseases caused by mutations in these genes, and their frequencies. Point mutations and multiplications in SNCA cause cognitive or psychiatric symptoms, parkinsonism, dysautonomia and
myoclonus
with widespread alpha-synuclein pathology in the central and peripheral nervous system. LRRK2 mutations may lead to a clinical phenotype closely resembling idiopathic PD with a puzzling variety in neuropathology. Mutations in
parkin
/PARK2, PINK1 or DJ1/PARK7 may cause early-onset parkinsonism with a low risk for cognitive decline and a pathological process usually restricted to the brainstem. Carriers of mutations in the other genes may develop parkinsonism with or without additional symptoms, but rarely a disease resembling PD. The pathogenicity of several mutations remains unconfirmed. Although some mutations occur with high frequency in specific populations, worldwide all are very rare. The genetic cause of the majority of patients with sporadic or hereditary PD remains unknown in most populations. Clinical genetic testing is useful for selected patients. Testing strategies need to be adapted individually based on clinical phenotype and estimated frequency of the mutation in the patient's population.
...
PMID:Monogenic Parkinson's disease and parkinsonism: clinical phenotypes and frequencies of known mutations. 2346 81
