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)

We show here that children with pyridoxine-dependent seizures (PDS) have mutations in the ALDH7A1 gene, which encodes antiquitin; these mutations abolish the activity of antiquitin as a delta1-piperideine-6-carboxylate (P6C)-alpha-aminoadipic semialdehyde (alpha-AASA) dehydrogenase. The accumulating P6C inactivates pyridoxal 5'-phosphate (PLP) by forming a Knoevenagel condensation product. Measurement of urinary alpha-AASA provides a simple way of confirming the diagnosis of PDS and ALDH7A1 gene analysis provides a means for prenatal diagnosis.
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PMID:Mutations in antiquitin in individuals with pyridoxine-dependent seizures. 1649 Oct 85

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

The neuropsychological and clinical histories of three male siblings affected by pyridoxine-dependent seizures with known homozygous antiquitin mutations are presented. Neuropsychological evaluation is reported from when the siblings were 11, 9, and 7 years of age. Two of the siblings had received early pyridoxine treatment (antenatal, 2-4 wks into pregnancy) and one had received late treatment (2mo postnatal). However, there was no differential effect on cognitive outcome, with all three siblings having moderate to severe learning disability. Unlike previously reported cases that received early postnatal treatment, none of the siblings had relatively preserved non-verbal cognitive skills. Equally, their intellectual performance over time did not increase above the 1st centile despite high maintenance doses of vitamin B6 (range 16-26 mg/kg/d), and mild sensory neuropathy was reported on nerve conduction studies. The findings in these siblings challenge assumptions that early and high dose pyridoxine treatment can benefit cognition in this population and suggest routine electromyography monitoring may be beneficial.
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PMID:Pyridoxine-dependent seizures: a family phenotype that leads to severe cognitive deficits, regardless of treatment regime. 1737 42

Recently, alpha-aminoadipic semialdehyde (alpha-AASA) dehydrogenase deficiency was shown to cause pyridoxine-dependent epilepsy in a considerable number of patients. alpha-AASA dehydrogenase deficiency is an autosomal recessive disorder characterized by a neonatal-onset epileptic encephalopathy in which seizures are resistant to antiepileptic drugs but respond immediately to the administration of pyridoxine (OMIM 266100). Increased plasma and urinary levels of alpha-AASA are associated with pathogenic mutations in the alpha-AASA dehydrogenase (ALDH7A1/antiquitin) gene. Here, we report an intriguing "silent" mutation in ALDH7A1, a novel missense mutation and a founder mutation in a Dutch cohort (10 patients) with alpha-AASA dehydrogenase deficiency.
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PMID:An intriguing "silent" mutation and a founder effect in antiquitin (ALDH7A1). 1772 76

Pyridoxine-dependent seizures (PDS) is a rare autosomal recessive disorder causing intractable seizures in neonates and infants. Patients are typically resistant to conventional anticonvulsants but respond well to the administration of pyridoxine. We report two unrelated patients affected with PDS as a result of alpha-aminoadipic semialdehyde (alpha-AASA) dehydrogenase deficiency caused by pathogenic ALDH7A1/antiquitin mutations. Two of the three reported mutations are novel and result in erroneous splicing, as showed by messenger RNA (mRNA) studies. So far, the vast majority of the patients clinically diagnosed as PDS show alpha-AASA dehydrogenase deficiency, caused by mutations in the ALDH7A1 gene. However, despite the availability of reliable biomarkers, early consideration of a pyridoxine trial is still the most important issue in a child with therapy-resistant seizures.
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PMID:Two novel ALDH7A1 (antiquitin) splicing mutations associated with pyridoxine-dependent seizures. 1871 9

Pyridoxine-dependent seizures are a rare condition recognized when numerous seizures respond to pyridoxine treatment and recur on pyridoxine withdrawal. For decades the diagnosis was confirmed only with pyridoxine treatment withdrawal trial. Recently described biochemical and molecular pathology improved the diagnostic process for those cases in which seizures are caused by alpha amino adipic semialdehyde dehydrogenase deficiency. This article presents a girl with recurrent status epilepticus episodes resistant to phenobarbital and phenytoin and partly responding to midazolam. Eventually the seizures were completely controlled with pyridoxine; however, due to the severe condition of this child when seizing, no trial of withdrawal has been performed. The diagnosis of pyridoxine-dependent seizures was confirmed with biochemical and molecular testing revealing elevated alpha-AASA excretion and the presence of 2 different mutations in the antiquitin ( ALDH7A1) gene. Due to the availability of reliable laboratory testing, confirmation of the diagnosis was made without the life-threatening trial of pyridoxine withdrawal.
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PMID:Pyridoxine-dependent seizures caused by alpha amino adipic semialdehyde dehydrogenase deficiency: the first polish case with confirmed biochemical and molecular pathology. 1885 20

We report on a male proband with pyridoxine-dependent epilepsy (PDE) and neonatal seizure onset. At the age of 31 months, a prolonged status epilepticus led to severe neurological regression with cortical blindness, loss of speech and muscular hypotonia with slow recovery over the following 3 months. At 33 months of age pyridoxine therapy was initiated with excellent response and the boy remained seizure-free on pyridoxine monotherapy, except for two occasions with seizure recurrence 10 days after accidental pyridoxine withdrawal. alpha-aminoadipic semialdehyde dehydrogenase (antiquitin) deficiency was indicated by elevated pipecolic acid concentrations in plasma and alpha-aminoadipic semialdehyde excretion in urine. Molecular analysis of the antiquitin gene revealed a novel missense mutation c.57insA, while the mutation of the other allele remained unidentified so far. Despite the delay in diagnosis and prolonged status epilepticus, neuropsychological evaluations at the ages of 11 and 18 years demonstrated full-scale IQ of 93 and 92, respectively, with better verbal IQ (103 and 101) than performance IQ (85 and 82).
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PMID:Pyridoxine-dependent epilepsy: normal outcome in a patient with late diagnosis after prolonged status epilepticus causing cortical blindness. 1929 2

Pyridoxine-dependent seizures (PDS) is an autosomal recessive disorder characterized by seizures presenting in neonates or infants up to 3 years of age which respond to pharmacological doses of pyridoxine. Alpha-aminoadipic semialdehyde dehydrogenase (antiquitin) deficiency was identified as an underlying defect in PDS characterized by accumulation of alpha-aminoadipic semialdehyde (alpha-AASA) as a specific marker and recently folinic acid-responsive seizures (FRS) were found to be allelic to PDS as the putative mutations were identified in the antiquitin gene (ALDH7A1). alpha-AASA is known to be in reversible equilibrium with its cyclic Shiff base, delta(1)-piperideine-6-carboxylate (P6C). Pipecolic acid (PA) is another biomarker often elevated but is not specific to PDS. Here, we developed the liquid chromatography-mass spectrometry (LC-MS/MS) method to determine the analytes of alpha-AASA, P6C and PA simultaneously in plasma and validated the assay using samples from confirmed cases. This approach eliminates the extra time and expense of running multiple assays and provides valuable information for the rapid diagnosis and treatment of patients with PDS and FRS which potentially could lead to a better outcome with improved quality of life. The stability study showed that alpha-AASA and P6C were unstable even at -20 degrees C. A careful sample handling with immediate freezing and testing is required for reliable result.
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PMID:Simultaneous determination of alpha-aminoadipic semialdehyde, piperideine-6-carboxylate and pipecolic acid by LC-MS/MS for pyridoxine-dependent seizures and folinic acid-responsive seizures. 1963 89

Antiquitin is an aldehyde dehydrogenase involved in the catabolism of lysine. Mutations of antiquitin have been linked with the disease pyridoxine-dependent seizures. While it is well established that lysine metabolism takes place in the mitochondrial matrix, evidence for the mitochondrial localization of antiquitin has been lacking. In the present study, the subcellular localization of antiquitin was investigated using human embryonic kidney HEK293 cells. Three different approaches were used. First, confocal microscopic analysis was carried out on cells transiently transfected with fusion constructs containing enhanced green fluorescent protein with different lengths of antiquitin based on the different potential start codons of translation. Second, immunofluorescence staining was used to detect the localization of antiquitin directly in the cells. Third, subcellular fractionation was carried out and the individual fraction was analyzed for the presence of antiquitin by Western blot and flow cytometric analyses. All the results showed that antiquitin was present not only in the cytosol but also in the mitochondria.
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PMID:Is antiquitin a mitochondrial Enzyme? 1988 58

The treatment of neonatal seizures generally relies on the use of one or more anticonvulsant medications along with evaluation and management of any underlying etiology. In some circumstances, neonatal seizures are refractory to therapy and result in poor outcomes, including death. Certain rare vitamin- responsive inborn errors of metabolism may present as neonatal encephalopathy with anticonvulsant-resistant seizures. Therefore, it is vital for the clinicians of caring for seizing encephalopathic newborns to consider these particular disorders early in the hospital course. Pyridoxine-dependent seizures are due to deficiency of alpha-aminoadipic semialdehyde dehydrogenase (antiquitin) which is encoded by ALDH7A1. Seizures in infants who are pyridoxine-dependent must be treated using pharmacologic doses of pyridoxine (vitamin B(6)), and life-long therapy is required. Despite medical therapy, developmental handicaps, particularly in expressive language, are common. Folinic acidresponsive seizures are treated with supplements of folinic acid (5-formyltetrahydrofolate). Recently, patients with this condition were also demonstrated to be antiquitin deficient. Pyridoxal phosphate-dependent seizures result from a deficiency of pyridox(am)ine 5'-phosphate oxidase which is encoded by PNPO. Patients with this cause of seizures respond to pyridoxal phosphate but not to pyridoxine. This review discusses our current understanding of these three neonatal vitamin-responsive epileptic encephalopathies and a diagnostic and treatment protocol is proposed.
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PMID:Neonatal vitamin-responsive epileptic encephalopathies. 2018 90


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