Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0234166 (Hyperekplexia)
 84 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Hyperekplexia (MIM: 149400), or startle disease, is an autosomal dominant neurological disorder characterized by an extreme generalized stiffness immediately after birth, normalizing during the first years of life. Other features of this disorder are excessive startle reactions to unexpected, particularly auditory, stimuli together with a short period of generalized stiffness during which voluntary movements are impossible. Linkage analysis mapped a gene for this disorder to chromosome 5q33-q35. Subsequently, mutations in the GLRA1 gene encoding the alpha 1-subunit of the glycine receptor proved to be causally related to the disease. In the present study, mutation analysis of all exon and flanking intron sequences of this gene was performed in sporadic patients and their parents. Moreover, a branch of the original Dutch hyperekplexia family with a very severely affected individual was screened for an additional mutation in the GLRA1 gene. Except for two polymorphisms, of which one results in an amino acid change, no potentially disease causing mutations were found in the alpha 1-subunit of the glycine receptor. Together with haplotype analysis these results exclude a recessive inheritance or new mutation etiology in these hyperekplexia-like syndrome and emphasize that hyperekplexia-like syndromes can be caused by other genetic factors. The involvement of other genes encoding subunits of the functional glycine receptor complex has not been excluded.
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PMID:Hyperekplexia-like syndromes without mutations in the GLRA1 gene. 935 Mar 97

Hyperekplexia (MIM 149400), or startle disease, is a neurological disorder characterized by generalized stiffness during the neonatal period, excessive startle reflexes, and generalized stiffness related to the startle response. Linkage analysis mapped a major gene for this disorder to chromosome 5q33-35. Subsequently, mutations in the GLRA1 gene, encoding the alpha1 subunit of the glycine receptor, were found in hyperekplexia families with an autosomal dominant or recessive inheritance pattern. In the present study, we describe the genetic analysis of the GLRA1 gene of a family consisting of 2 children with hyperekplexia, 2 nonaffected children, and their healthy nonconsanguineous parents. Although the pedigree suggested the presence of a recessive mutation, haplotype construction showed that the 2 affected children shared the same haplotype combination in which the maternal haplotype differed from the paternal haplotype, suggesting the presence of compound heterozygosity. Mutation analysis revealed different missense mutations on the two haplotypes, changing an arginine to a histidine at amino acid positions 252 and 392, respectively. It is interesting that the hyperekplexia phenotype was only seen in individuals compound heterozygous for the two mutations, whereas family members carrying either one of the two mutations had no clinical signs.
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PMID:Hyperekplexia phenotype due to compound heterozygosity for GLRA1 gene mutations. 1051 1

Hyperekplexia (MIM: 149400) is a neurological disorder characterized by an excessive startle response which can be caused by mutations in the alpha1-subunit (GLRA1) of the heteropentameric human inhibitory glycine receptor (hGlyR). These receptors facilitate fast-response, inhibitory glycinergic neurotransmission in the brainstem and spinal cord leading to a rapid modification and reduction of the excitatory startle response. Mutations in the beta-subunit of GlyR (glrb) occur in a murine model of hyperekplexia (spastic), but have not been detected in human hyperekplexia. Following mutation analysis of the human beta-subunit of hGlyR (GLRB) in a cohort of 22 hyperekplexia patients, we provide evidence to confirm that GLRB mutations can cause human hyperekplexia. A missense (G920A resulting in G229D) and a splice site mutation (IVS5+5G-->A) occurred together in a compound heterozygote with a transient hyperekplexia phenotype. Exon trap analysis revealed that IVS5+5G-->A results in the exclusion of exon 5 from GLRB transcripts. Electrophysiological studies showed reduced sensitivity to agonist mediated activation of the alpha1beta (G229D) GlyR suggesting that GlyR beta-subunits are not restricted to conferring modulatory influences and maintaining structural integrity, but may also play a functional role in hGlyR ligand binding.
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PMID:Hyperekplexia associated with compound heterozygote mutations in the beta-subunit of the human inhibitory glycine receptor (GLRB). 1192 58

Startle disease or hyperekplexia (STHE; MIM 149400) is a rare disorder that is characterized by marked muscular hypertonia in infancy and an exaggerated startle response to unexpected acoustic or tactile stimuli. Mutations in the gene encoding the alpha-1 subunit of the inhibitory glycine receptor (GLRA1) were reported as causes of STHE. Recently, we encountered a Korean male infant with generalized stiffness that was observed from the first 3 days of life. The abnormal startle response was evident from the fourth week of life, and he showed marked improvement in the startle response and muscle hypertonia after being administered phenobarbital and clonazepam. Direct sequencing analysis of the infant and his parents revealed a de novo variation (c.910A>C) in the GLRA1 gene, resulting in a novel Lys304Gln missense mutation.
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PMID:Identification of a de novo Lys304Gln mutation in the glycine receptor alpha-1 subunit gene in a Korean infant with hyperekplexia. 1817 47

Hyperekplexia (MIM #149400) is a rare neurological disorder characterized by an exaggerated startle response, infantile hypertonia and hyperreflexia without spasticity, a hesitant gait that usually improves by 3 years of age, and nocturnal myoclonus. Familial hyperekplexia is usually autosomal dominant resulting from mutations in the inhibitory glycine receptor subunit alpha 1 (GLRA1) gene on chromosome 5q. We identified a 3-generation family with progressively severe phenotypes of hyperekplexia. All affected family members were found to be heterozygous for a novel arginine271proline mutation in GLRA1. Long-term follow-up of the affected members of the third generation, now aged 6 and 7 years, reveals enhanced startle responses and persistent hypertonia of the extremities without clonus or a catch, tight heel cords and abnormal toe-walking gait, and plantar flexor reflexes. The 7-year-old child recently reponded well to a benzodiazepine. Future studies are warranted to examine whether this new missense mutation is solely responsible for this atypical phenotype.
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PMID:A novel GLRA1 mutation associated with an atypical hyperekplexia phenotype. 1907 49