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Query: UMLS:C0013421 (
dystonia
)
8,418
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Benign paroxysmal torticollis of infancy (BPTI) is a disorder characterized by recurrent episodes of head tilt secondary to cervical
dystonia
. Attacks are often accompanied by vomiting, pallor, and ataxia, settling spontaneously within hours or days. Episodes begin within the first 12 months of life and resolve by 5 years. We report four patients with BPTI. Symptoms started from 3 months of age, with head tilting lasting between 10 minutes and 2 months; the shorter episodes were followed by vomiting, apathy, and unsteadiness. Head tilt became less prominent after infancy, replaced by vertigo and eventually by migraine headaches. Two patients came from a kindred with familial hemiplegic migraine linked to
CACNA1A
mutation. BPTI may be regarded as a migraine aura equivalent. The syndrome poses interesting questions regarding varying phenotypic expression of calcium channelopathies at different stages of development.
...
PMID:Benign paroxysmal torticollis of infancy: four new cases and linkage to CACNA1A mutation. 1216 87
Ca(v)2.1 (P/Q-type) voltage-gated calcium channels play an important role in neurotransmitter release at many brain synapses and at the neuromuscular junction. Mutations in the
CACNA1A
gene, encoding the pore forming alpha(1) subunit of Ca(v)2.1 channels, are associated with a wide spectrum of neurological disorders. Here we generated mice with a conditional, floxed, Cacna1a allele without any overt phenotype. Deletion of the floxed Cacna1a allele resulted in ataxia,
dystonia
, and lethality during the fourth week, a severe phenotype similar to conventional Ca(v)2.1 knockout mice. Although neurotransmitter release at the neuromuscular junction was not affected in the conditional mice, homozygous deletion of the floxed allele caused an ablation of Ca(v)2.1 channel-mediated neurotransmission that was accompanied by a compensatory upregulation of Ca(v)2.3 (R-type) channels at this synapse. Pharmacological inhibition of Ca(v)2.1 channels is possible, but the contributing cell-types and time windows relevant to the different Ca(v)2.1-related neurological disorders can only be reliably determined using Cacna1a conditional mice.
...
PMID:Conditional inactivation of the Cacna1a gene in transgenic mice. 1714 67
We report a patient with typical features of episodic ataxia type 2 (EA2) but with onset in the sixth decade and associated interictal hand
dystonia
. He was found to bear the novel heterozygous missense mutation p.Gly638Asp (c.1913G>A) in the
CACNA1A
gene. Functional analysis of the mutation on P/Q channels expressed in HEK 293 cells revealed a reduction of Ca(2+) current densities, a left-shift in the apparent reversal potential, the slowing of inactivation kinetics and the increase in the rate of current recovery from inactivation. These results are consistent with a decrease in Ca(2+) permeability through mutant P/Q channels. To our knowledge, this is just the second patient with late onset EA2 linked to a
CACNA1A
mutation and the first to carry a loss-of-function missense mutation.
...
PMID:Late-onset episodic ataxia type 2 associated with a novel loss-of-function mutation in the CACNA1A gene. 1923 43
Type 2 episodic ataxia (EA2) is the most common subtype among a group of rare hereditary syndromes characterized by recurrent attacks of ataxia. More than 60 mutations and several gene rearrangements due to large deletions in
CACNA1A
gene have been reported so far for the cause of EA2. Because
CACNA1A
gene is a large gene containing 47 exons and there is no hot spot mutation, direct sequencing will be a challenge in clinical genetic testing. In this study, we used next generation sequencing technology to identify a novel nonsense mutation of
CACNA1A
(p.Tyr1957Ter, NP_001120693.1) resulting in truncated protein without 305 amino acids in the c-terminus. Sanger sequencing confirmed the heterozygous mutation of
CACNA1A
in a Chinese family with 11 affected individuals. Affected individuals experienced recurrent attacks with or without nystagmus, dysarthria, seizure, myokymia,
dystonia
, weakness, blurred vision, visual field defects, diplopia, migraine, dizziness, nausea and vomiting, sweating and abdominal pain. This is the first report of EA2 in a Chinese family that carries a novel mutation in
CACNA1A
gene and had abdominal pain as a novel phenotype associated with EA2.
...
PMID:Identification of a novel nonsense mutation p.Tyr1957Ter of CACNA1A in a Chinese family with episodic ataxia 2. 2344 Nov 82
Episodic ataxia type 2 (EA2, MIM#108500) is the most common form of EA and an autosomal-dominant inherited disorder characterized by paroxysmal episodes of ataxia. The disease causative gene
CACNA1A
encodes for the alpha 1A subunit of the voltage-gated P/Q-type calcium channel. We report on a family with a novel mutation in the
CACNA1A
gene. The clinical symptoms within the family varied from the typical clinical presentation of EA2 with dysarthria, gait ataxia and oculomotor symptoms to migraine and
dystonia
. A novel nonsense mutation of the
CACNA1A
gene was identified in all affected family members and is most likely the disease causing molecular defect. The pharmacological treatment with acetazolamide (AAA) was successful in three family members so far. Treatment with AAA led to a reduction of migraine attacks and an improvement of the
dystonia
. This relationship confirmed the hypothesis that this novel mutation results in a heterogeneous phenotype and confutes the coincidence with common migraine.
Dystonia
is potentially included as a further part of the phenotype spectrum of
CACNA1A
gene mutations.
...
PMID:Novel frameshift mutation in the CACNA1A gene causing a mixed phenotype of episodic ataxia and familiar hemiplegic migraine. 2546 64
Dystonia
is a genetically heterogenous disease and a prototype disorder where next-generation sequencing has facilitated the identification of new pathogenic genes. This includes the first two genes linked to recessively inherited isolated
dystonia
, that is, HPCA (hippocalcin) and COL6A3 (collagen VI alpha 3). These genes are proposed to underlie cases of the so-called DYT2-like
dystonia
, while also reiterating two distinct pathways in
dystonia
pathogenesis. First, deficiency in HPCA function is thought to alter calcium homeostasis, a mechanism that has previously been forwarded for
CACNA1A
and ANO3. The novel myoclonus-
dystonia
genes KCTD17 and CACNA1B also implicate abnormal calcium signaling in
dystonia
. Second, the phenotype in COL6A3-loss-of-function zebrafish models argues for a neurodevelopmental defect, which has previously been suggested as a possible biological mechanism for THAP1, TOR1A, and TAF1 based on expression data. The newly reported myoclonus-
dystonia
gene, RELN, plays also a role in the formation of brain structures. Defects in neurodevelopment likewise seem to be a recurrent scheme underpinning mainly complex dystonias, for example those attributable to biallelic mutations in GCH1, TH, SPR, or to heterozygous TUBB4A mutations. To date, it remains unclear whether
dystonia
is a common phenotypic outcome of diverse underlying disease mechanisms, or whether the different genetic causes converge in a single pathway. Importantly, the relevance of pathways highlighted by novel
dystonia
genes identified by high-throughput sequencing depends on the confirmation of mutation pathogenicity in subsequent genetic and functional studies. However, independent, careful validation of genetic findings lags behind publications of newly identified genes. We conclude with a discussion on the characteristics of true-positive reports.
...
PMID:Novel Dystonia Genes: Clues on Disease Mechanisms and the Complexities of High-Throughput Sequencing. 2699 7
Inborn errors of
CACNA1A
-encoded P/Q-type calcium channels impair synaptic transmission, producing early and lifelong neurological deficits, including childhood absence epilepsy, ataxia and
dystonia
. Whether these impairments owe their pathologies to defective channel function during the critical period for thalamic network stabilization in immature brain remains unclear. Here we show that mice with tamoxifen-induced adult-onset ablation of P/Q channel alpha subunit (iKOp/q) display identical patterns of dysfunction, replicating the inborn loss-of-function phenotypes and, therefore demonstrate that these neurological defects do not rely upon developmental abnormality. Unexpectedly, unlike the inborn model, the adult-onset pattern of excitability changes believed to be pathogenic within the thalamic network is non-canonical. Specifically, adult ablation of P/Q channels does not promote Cacna1g-mediated burst firing or T-type calcium current (IT) in the thalamocortical relay neurons; however, burst firing in thalamocortical relay neurons remains essential as iKOp/q mice generated on a Cacna1g deleted background show substantially diminished seizure generation. Moreover, in thalamic reticular nucleus neurons, burst firing is impaired accompanied by attenuated IT. Interestingly, inborn deletion of thalamic reticular nucleus-enriched, human childhood absence epilepsy-linked gene Cacna1h in iKOp/q mice reduces thalamic reticular nucleus burst firing and promotes rather than reduces seizure, indicating an epileptogenic role for loss-of-function Cacna1h gene variants reported in human childhood absence epilepsy cases. Together, our results demonstrate that P/Q channels remain critical for maintaining normal thalamocortical oscillations and motor control in the adult brain, and suggest that the developmental plasticity of membrane currents regulating pathological rhythmicity is both degenerate and age-dependent.
...
PMID:Adult loss of Cacna1a in mice recapitulates childhood absence epilepsy by distinct thalamic bursting mechanisms. 3233 75
