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Query: UMLS:C0027066 (
myoclonus
)
4,275
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Progressive
myoclonus
epilepsies (PMEs) are a group of rare, inherited disorders manifesting with action
myoclonus
, tonic-clonic seizures and ataxia. We sequenced the exomes of 84 unrelated individuals with PME of unknown cause and molecularly solved 26 cases (31%). Remarkably, a recurrent de novo mutation, c.959G>A (p.Arg320His), in
KCNC1
was identified as a new major cause for PME. Eleven unrelated exome-sequenced (13%) and two affected individuals in a secondary cohort (7%) had this mutation.
KCNC1
encodes
KV3.1
, a subunit of the KV3 voltage-gated potassium ion channels, which are major determinants of high-frequency neuronal firing. Functional analysis of the Arg320His mutant channel showed a dominant-negative loss-of-function effect. Ten cases had pathogenic mutations in known PME-associated genes (NEU1, NHLRC1, AFG3L2, EPM2A, CLN6 and SERPINI1). Identification of mutations in PRNP, SACS and TBC1D24 expand their phenotypic spectra to PME. These findings provide insights into the molecular genetic basis of PME and show the role of de novo mutations in this disease entity.
...
PMID:A recurrent de novo mutation in KCNC1 causes progressive myoclonus epilepsy. 2540 Dec 98
Progressive myoclonus epilepsy (PME) is a distinct group of seizure disorders characterized by gradual neurological decline with ataxia,
myoclonus
and recurring seizures. There are several forms of PME, among which the most recently described is MEAK - myoclonus epilepsy and ataxia due to potassium channel mutation. This particular subtype is caused by a recurrent de novo heterozygous mutation (c.959G>A, p.Arg320His) in the
KCNC1
gene, which maps to chromosome 11 and encodes for the Kv3.1 protein (a subunit of the Kv3 subfamily of voltage-gated potassium channels). Loss of Kv3 function disrupts the firing properties of fast-spiking neurons, affects neurotransmitter release and induces cell death. Specifically regarding Kv3.1 malfunctioning, the most affected neurons include inhibitory GABAergic interneurons and cerebellar neurons. Impairment of the former cells is believed to contribute to
myoclonus
and seizures, whereas dysfunction of the latter to ataxia and tremor. Phenotypically, MEAK patients generally have a normal early development. At the age of 6 to 14 years, they present with
myoclonus
, which tends to progressively worsen with time. Tonic-clonic seizures may or may not be present, and some patients develop mild cognitive impairment following seizure onset. Typical electroencephalographic features comprise generalized epileptiform discharges and, in some cases, photosensitivity. Brain imaging is either normal or shows cerebellar atrophy. The identification of MEAK has both expanded the phenotypic and genotypic spectra of PME and established an emerging role for de novo mutations in PME.
...
PMID:Myoclonus epilepsy and ataxia due to potassium channel mutation (MEAK) is caused by heterozygous KCNC1 mutations. 2762 60
p.(Arg320His) mutation in the
KCNC1
gene in human 11p15.1 has recently been identified in patients with progressive
myoclonus
epilepsies, a group of rare inherited disorders manifesting with action
myoclonus
, myoclonic epilepsy, and ataxia. This
KCNC1
variant causes a dominant-negative effect. Here we describe three patients from the same family with intellectual disability and dysmorphic features. The three affected individuals carry a c.1015C>T (p.(Arg339*)) nonsense variant in
KCNC1
gene. As previously observed in the mutant mouse carrying a disrupted
KCNC1
gene, these findings reveal that individuals with a
KCNC1
loss-of-function variant can present intellectual disability without seizure and epilepsy.
...
PMID:Loss of Function of KCNC1 is associated with intellectual disability without seizures. 2814 25
Progressive
myoclonus
epilepsies (PMEs) constitute a cluster of inherent, genetically diverse, rare seizure disorders characterized by ataxia, tonic-clonic seizures, and action
myoclonus
. Recently, a mutation in the
KCNC1
gene (Arg320His) was described in a group of PME patients. The
KCNC1
gene encodes the K
v
3.1 potassium ion channel responsible for the rapid repolarization of the membrane potential following action potential firing in fast spiking GABAergic interneurons (FSI), thereby enabling high firing frequency. In the present study, we demonstrate that the Arg320His mutation cause a reduction in the K
v
3.1 current amplitude and acts in a dominantly negative fashion. The mutation profoundly affects channel activation and deactivation kinetics, and we further find that it impairs recruitment of the K
v
3.1 channel to the plasma membrane. The K
v
3 activating compound, RE01, partly rescues the electrophysiological deficit, suggesting that pharmacological activation of K
v
3.1 activity might be a feasible approach for treatment of this cohort of PME patients.
...
PMID:Pharmacological rescue of mutated K
v
3.1 ion-channel linked to progressive myoclonus epilepsies. 2989 24
A recurrent de novo missense variant in
KCNC1
, encoding a voltage-gated potassium channel expressed in inhibitory neurons, causes progressive myoclonus epilepsy and ataxia, and a nonsense variant is associated with intellectual disability. We identified three new de novo missense variants in
KCNC1
in five unrelated individuals causing different phenotypes featuring either isolated nonprogressive
myoclonus
(p.Cys208Tyr), intellectual disability (p.Thr399Met), or epilepsy with myoclonic, absence and generalized tonic-clonic seizures, ataxia, and developmental delay (p.Ala421Val, three patients). Functional analyses demonstrated no measurable currents for all identified variants and dominant-negative effects for p.Thr399Met and p.Ala421Val predicting neuronal disinhibition as the underlying disease mechanism.
...
PMID:KCNC1-related disorders: new de novo variants expand the phenotypic spectrum. 3135 62
Progressive myoclonic epilepsy (PME) is characterized by prominent
myoclonus
and generalized or focal seizures. A recently described novel
KCNC1
mutation is associated with a specific phenotype of progressive myoclonic epilepsy, which has been defined as myoclonic epilepsy and ataxia due to potassium channel mutation (MEAK). Our case illustrates a typical presentation of this disease and the potential for misdiagnosis as idiopathic generalized epilepsy during the early phase of the disease. Unique findings that may suggest an alternative diagnosis are a progressive
myoclonus
, prominent ataxia/dysmetria on examination, and abnormally high amplitude in the sensory evoked potential recording. We also report a brief review of the existing literature on MEAK. Early and accurate diagnosis with genetic testing may significantly help in counseling patients and families.
...
PMID:Progressive myoclonic epilepsy: myoclonic epilepsy and ataxia due to KCNC1 mutation (MEAK): a case report and review of the literature. 3297 6
