Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0036572 (seizures)
80,221 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A novel missense activating mutation in the extracellular calcium-sensing receptor (CaSR) is reported in this work. It was identified in three related subjects with the phenotypic features of autosomal dominant hypocalcemia (ADH). The proband, a 27-year-old woman, diagnosed as having hypoparathyroidism at 7 years of age and a history of seizures, showed the highest penetrance of the mutation. The remaining two affected members presented asymptomatic chronic hypocalcemia despite severe hypoparathyroidism associated with high levels of serum phosphate and calcium urinary excretion. The missense mutation (Glu(604)Lys) affected an amino acid residue in the C terminus of the cysteine-rich domain of the extracellular amino-terminal domain, which seems to be required for the coupling of ligand binding to the activation of intracellular signaling pathways. This genetic change cosegregated with hypocalcemia in all the individuals where the mutation was found. As parathyroid hormone (PTH) secretion is the regulatory target of the CaSR, polymorphism analysis of the PTH gene was carried out. PTH polymorphisms were analyzed in the kindred studied. Affected members for the Glu(604)Lys CaSR mutation which also carried the uncommon PTH alleles showed higher penetrance of the mutation, with more severe autosomal dominant hypocalcemia. These results suggested that the PTH gene could act as a modifier locus of ADH, affecting the penetrance of the activating CaSR mutation described.
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PMID:A novel mutation in the calcium-sensing receptor responsible for autosomal dominant hypocalcemia in a family with two uncommon parathyroid hormone polymorphisms. 1451 94

A recent report indicates that a lysine-to-methionine mutation (K289M) in the gamma2 subunit of a human gamma-aminobutyric acid neurotransmitter receptor, the GABA(A) receptor, is linked to generalized epilepsy with febrile seizures [Baulac et al. (2001) Nat. Genet. 28, 46-48]. This mutation caused a decreased current response to GABA [Baulac et al. (2001) Nat. Genet. 28, 46-48]. Here we determine changes that occur in the mechanism of opening and closing of transmembrane channels formed by the GABA(A) receptor as a result of this mutation. The K289M mutation was introduced into the gamma2L subunit of the rat GABA(A) receptor, and the mutated subunit was coexpressed with the alpha1 and beta2 subunits in HEK293 cells. Transient kinetic techniques suitable for investigating reactions on cell surfaces with a microsecond-to-millisecond time resolution [Hess, G. P., and Grewer, C. (1998) Methods Enzymol. 291, 443-473] were used. They allow one to determine not only the channel-opening probability and rates of receptor desensitization but also the opening and closing rates of the mutated GABA(A) receptor channel. The channel-opening equilibrium constant of the mutated receptor was found to be 5-fold lower than that of the wild type. We calculated that this decrease in the channel-opening equilibrium accounts for the dysfunction of the mutated receptor. We discuss how a knowledge of the mechanism of the mutated receptor indicates an approach for alleviating this dysfunction.
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PMID:On the mechanism of a mutated and abnormally functioning gamma-aminobutyric acid (A) receptor linked to epilepsy. 1518 95

In the autosomal recessive human disease, glutaric aciduria type I (GA-1), glutaryl-CoA dehydrogenase (GCDH) deficiency disrupts the mitochondrial catabolism of lysine and tryptophan. Affected individuals accumulate glutaric acid (GA) and 3-hydroxyglutaric acid (3-OHGA) in the serum and often suffer acute striatal injury in childhood. Prior attempts to produce selective striatal vulnerability in an animal model have been unsuccessful. We hypothesized that acute striatal injury may be induced in GCDH-deficient (Gcdh-/-) mice by elevated dietary protein and lysine. Here, we show that high protein diets are lethal to 4-week-old and 8-week-old Gcdh-/- mice within 2-3 days and 7-8 days, respectively. High lysine alone resulted in vasogenic oedema and blood-brain barrier breakdown within the striatum, associated with serum and tissue GA accumulation, neuronal loss, haemorrhage, paralysis, seizures and death in 75% of 4-week-old Gcdh-/- mice after 3-12 days. In contrast, most 8-week-old Gcdh-/- mice survived on high lysine, but developed white matter lesions, reactive astrocytes and neuronal loss after 6 weeks. Thus, the Gcdh-/- mouse exposed to high protein or lysine may be a useful model of human GA-1 including developmentally dependent striatal vulnerability.
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PMID:A diet-induced mouse model for glutaric aciduria type I. 1687 Aug 80

Apoptosis signaling pathways are implicated in the pathogenesis of temporal lobe epilepsy (TLE), but the role of endoplasmic reticulum (ER) stress and ER-localized apoptosis signaling components remains largely unexplored. Presently, we investigated ER stress and ER localization of proapoptotic Bcl-2 family members and initiator and effector caspases in resected hippocampus from patients with intractable TLE and compared findings with autopsy controls. Hippocampal immunoreactivity for KDEL (Lys-Asp-Glu-Leu), a motif in ER stress chaperones glucose-regulated proteins 78 and 94, and calnexin, was significantly higher in TLE hippocampus compared with controls. The ER-containing microsomal fraction in control brain contained Bid, Bim, and caspase 3, whereas Bad and caspases 6, 7, and 9 were very low or absent. In contrast, caspases 6, 7, and 9 were present within the microsomal fraction of TLE brain. Furthermore, cleaved caspases 7 and 9 were detected in TLE samples but not controls, and KDEL-expressing neurons coexpressed cleaved caspase 9. Potentially adaptive changes were also detected, including lowered Bim levels in this fraction, and binding of caspase 7 to the X-linked inhibitor of apoptosis protein. These data suggest seizures may induce ER stress and trigger proapoptotic signaling pathways in the ER that are counteracted by antiapoptotic signals in chronic human TLE.
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PMID:Endoplasmic reticulum stress and apoptosis signaling in human temporal lobe epilepsy. 1665 83

Patients with pyridoxine dependent epilepsy (PDE) present with early-onset seizures resistant to common anticonvulsants. According to the benefit of pyridoxine (vitamin B(6)) and recurrence of seizures on pyridoxine withdrawal, patients so far have been classified as having definite, probable, or possible PDE. Recently, PDE has been shown to be caused by a defect of alpha-amino adipic semialdehyde (AASA) dehydrogenase (antiquitin) in the cerebral lysine degradation pathway. The accumulating compound piperideine-6-carboxylic acid (P6C) was shown to inactivate pyridoxalphosphate (PLP) by a Knoevenagel condensation. Pipecolic acid (PA) and AASA are markedly elevated in urine, plasma, and cerebrospinal fluid (CSF) and thus can be used as biomarkers of the disease. We have investigated 18 patients with neonatal seizure onset, who have been classified as having definite (11), probable (four), or possible (three) PDE. All patients had elevated PA and AASA in plasma (and urine) while on treatment with individual dosages of pyridoxine. Within this cohort, molecular analysis identified 10 novel mutations (six missense mutations, one nonsense mutation, two splice site mutations) within highly conserved regions of the antiquitin gene. Seven mutations were located in exonic sequences and two in introns 7 and 17. Furthermore, a novel deletion of exon 7 was identified. Two of the 36 alleles investigated require further investigation. A known mutation (p.Glu399Gln) was found with marked prevalence, accounting for 12 out of 36 alleles (33%) within our cohort. Pyridoxine withdrawal is no longer needed to establish the diagnosis of "definite" PDE. Administration of pyridoxine in PDE may not only correct secondary PLP deficiency, but may also lead to a reduction of AASA (and P6C) as presumably toxic compounds.
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PMID:Biochemical and molecular characterization of 18 patients with pyridoxine-dependent epilepsy and mutations of the antiquitin (ALDH7A1) gene. 1706 70

Cerebrotendinous xanthomatosis is an autosomal recessive disorder of bile acid synthesis, characterized by mutation in the mitochondrial enzyme 27-hydroxylase that leads to an accumulation of cholestanol and cholesterol. Characterized clinically by premature bilateral cataracts, slowly progressive neurological deterioration with dementia, cerebellar and brainstem signs, peripheral neuropathy, and seizures, the disease presents pathologically with lipid granulomata with foamy histiocytes and cholesterol clefts. Replacement therapy with chenodeoxycholic acid slows progression of the disease but does not reverse neurological deficits. Here, we present the case of a 49-year-old woman diagnosed at autopsy with cerebrotendinous xanthomatosis, on the basis of bilateral Achilles tendon granulomas, and typical foamy histiocytic infiltration of the brain, most severe in the dentate nucleus, and a typical clinical presentation. To investigate the pathological manifestations of this disease further, we performed immunohistochemistry for N(epsilon)-(carboxymethyl)-lysine, an indicator of oxidative damage, and found strong labeling of cytoplasmic material within histiocytes. In summary, this case of undiagnosed cerebrotendinous xanthomatosis during life emphasizes the need for a greater awareness of the disease, and early diagnosis and treatment. Further, the involvement of oxidative stress in cerebrotendinous xanthomatosis indicates that combined therapy with chenodeoxycholic acid and antioxidants may improve clinical outcome.
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PMID:Cerebrotendinous xanthomatosis: case report with evidence of oxidative stress. 1762 18

Glutaric aciduria type I is a rare disorder of organic acid metabolism caused by deficiency of glutaryl-CoA dehydrogenase, a mitochondrial enzyme. Improper degeneration of amino acids: tryptophan, lysine, and hydroxylysine, results in increased levels of glutaric acid, which typically becomes clinically manifest as an acute dystonic crisis in young children. Accumulation of glutaric acid causes neurotoxicity in the basal ganglia and fronto-temporal cortex which can lead to progressive dystonia, hypotonia, permanently impaired speech and seizures. Because dietary and drug therapy may alter the natural history of the disease, early diagnosis of such patients is critical. We report the magnetic resonance (MR) imaging findings in a 16 year-old girl with this disorder who presented with a chronic dystonic syndrome and previously diagnosed of brain paralysis. MR imaging demonstrated bilateral involvement of the putamina and periventricular white matter, and bilateral temporal atrophy and widened Silvian fissures.
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PMID:[Neuroradiologic findings of glutaric aciduria type I]. 1818 80

14-3-3 proteins are ubiquitous signalling molecules that regulate development and survival pathways in brain. Altered expression and cellular localization of 14-3-3 proteins has been implicated in neurodegenerative diseases and in neuronal death after acute neurological insults, including seizures. Presently, we examined expression and function of 14-3-3 isoforms in vitro using mouse organotypic hippocampal cultures. Treatment of cultures with the endoplasmic reticulum (ER) stressor tunicamycin caused an increase in levels of 14-3-3 zeta within the ER-containing microsomal fraction, along with up-regulation of Lys-Asp-Glu-Leu-containing proteins and calnexin, and the selective death of dentate granule cells. Depletion of 14-3-3 zeta levels using small interfering RNA induced both ER stress proteins and death of granule cells. Treatment of hippocampal cultures with the excitotoxin kainic acid increased levels of Lys-Asp-Glu-Leu-containing proteins and microsomal 14-3-3 zeta levels and caused cell death within the CA1, CA3 and dentate gyrus of the hippocampus. Kainic acid-induced damage was significantly increased in each hippocampal subfield of cultures treated with small interfering RNA targeting 14-3-3 zeta. The present data indicate a role for 14-3-3 zeta in survival responses following ER stress and possibly protection against seizure injury to the hippocampus.
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PMID:Depletion of 14-3-3 zeta elicits endoplasmic reticulum stress and cell death, and increases vulnerability to kainate-induced injury in mouse hippocampal cultures. 1846 33

Glutaric aciduria type I is a rare autosomic recessive neurometabolic disease, which develops in the first year of life and is characterized by progressive extrapyramidal disorders as a result of the basal ganglia damage. We describe first cases of this disease in Russian population. The clinical observations are compared to the literature data. The disease usually develops after infections and features by seizures, vomiting, metabolic acidosis and deprivation of consciousness up to coma. These crises lead to the development of necroses of the basal ganglia that results in dystonias, dyskinesias and choreoatethosis. The secondary complications of the disease are difficulties with feeding, speech delay, chronic aspiration syndrome and severe delay of movement development. Diagnostics of the disease is based on urine and blood tests using methods of tandem mass spectrometry and gas chromatography. Treatment is based on dietary lysine or protein restriction and supplementation with carnitine. The data on the treatment of this disease are presented.
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PMID:[Glutaric aciduria type 1: clinical presentations, diagnostics and treatment.]. 1847 73

Galanin is an endogenous neuropeptide that modulates seizures in the brain. Because this neuropeptide does not penetrate the blood-brain barrier, we designed truncated galanin analogues in which nonessential amino acid residues were replaced by cationic and/or lipoamino acid residues. The analogues prevented seizures in the 6 Hz mouse model of epilepsy following intraperitoneal administration. The most active analogue, Gal-B2 (NAX 5055), contained the -Lys-Lys-Lys(palmitoyl)-Lys-NH(2) motif and exhibited high affinity for galanin receptors (K(i) = 3.5 nM and 51.5 nM for GalR1 and GalR2, respectively), logD = 1.24, minimal helical conformation and improved metabolic stability. Structure-activity-relationship analysis suggested that cationization combined with position-specific lipidization was critical for improving the systemic activity of the analogues. Because the anticonvulsant activity of galanin is mediated by the receptors located in hippocampus and other limbic brain structures, our data suggest that these analogues penetrate into the brain. Gal-B2 may lead to development of first-in-class antiepileptic drugs.
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PMID:Design, synthesis, and characterization of high-affinity, systemically-active galanin analogues with potent anticonvulsant activities. 1905 61


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