Pyridoxine-dependent epilepsy was recently shown to be due to mutations in the ALDH7A1 gene, which encodes antiquitin, an enzyme that catalyses the nicotinamide adenine dinucleotide-dependent dehydrogenation of l-α-aminoadipic semialdehyde/l-Δ1-piperideine 6-carboxylate. However, whilst this is a highly treatable disorder, there is general uncertainty about when to consider this diagnosis and how to test for it. This study aimed to evaluate the use of measurement of urine l-α-aminoadipic semialdehyde/creatinine ratio and mutation analysis of ALDH7A1 (antiquitin) in investigation of patients with suspected or clinically proven pyridoxine-dependent epilepsy and to characterize further the phenotypic spectrum of antiquitin deficiency. Urinary l-α-aminoadipic semialdehyde concentration was determined by liquid chromatography tandem mass spectrometry. When this was above the normal range, DNA sequencing of the ALDH7A1 gene was performed. Clinicians were asked to complete questionnaires on clinical, biochemical, magnetic resonance imaging and electroencephalography features of patients. The clinical spectrum of antiquitin deficiency extended from ventriculomegaly detected on foetal ultrasound, through abnormal foetal movements and a multisystem neonatal disorder, to the onset of seizures and autistic features after the first year of life. Our relatively large series suggested that clinical diagnosis of pyridoxine dependent epilepsy can be challenging because: (i) there may be some response to antiepileptic drugs; (ii) in infants with multisystem pathology, the response to pyridoxine may not be instant and obvious; and (iii) structural brain abnormalities may co-exist and be considered sufficient cause of epilepsy, whereas the fits may be a consequence of antiquitin deficiency and are then responsive to pyridoxine. These findings support the use of biochemical and DNA tests for antiquitin deficiency and a clinical trial of pyridoxine in infants and children with epilepsy across a broad range of clinical scenarios.
BackgroundThymine kinase 2 (TK2) is a mitochondrial matrix protein encoded in nuclear DNA and phosphorylates the pyrimidine nucleosides: thymidine and deoxycytidine. Autosomal recessive TK2 mutations cause a spectrum of disease from infantile onset to adult onset manifesting primarily as myopathy.ObjectiveTo perform a retrospective natural history study of a large cohort of patients with TK2 deficiency.MethodsThe study was conducted by 42 investigators across 31 academic medical centres.ResultsWe identified 92 patients with genetically confirmed diagnoses of TK2 deficiency: 67 from literature review and 25 unreported cases. Based on clinical and molecular genetics findings, we recognised three phenotypes with divergent survival: (1) infantile-onset myopathy (42.4%) with severe mitochondrial DNA (mtDNA) depletion, frequent neurological involvement and rapid progression to early mortality (median post-onset survival (POS) 1.00, CI 0.58 to 2.33 years); (2) childhood-onset myopathy (40.2%) with mtDNA depletion, moderate-to-severe progression of generalised weakness and median POS at least 13 years; and (3) late-onset myopathy (17.4%) with mild limb weakness at onset and slow progression to respiratory insufficiency with median POS of 23 years. Ophthalmoparesis and facial weakness are frequent in adults. Muscle biopsies show multiple mtDNA deletions often with mtDNA depletion.ConclusionsIn TK2 deficiency, age at onset, rate of weakness progression and POS are important variables that define three clinical subtypes. Nervous system involvement often complicates the clinical course of the infantile-onset form while extraocular muscle and facial involvement are characteristic of the late-onset form. Our observations provide essential information for planning future clinical trials in this disorder.
When D-positive cells sensitized with anti-D are injected into normal adults, there is a direct correlation between the amount of anti-D on the cells (expressed as ,ug/ml of cells) and the rate of removal of the cells from the circulation [4]. If the same direct relationship is present in infants suffering from haemolytic disease of the newborn, it was thought that there might be a good correlation between the amount of anti-D on cord red cells and the haemoglobin and bilirubin concentrations in the plasma. The results of the investigation have shown however that the correlation is poor and it is concluded that several factors, other than anti-D concentration on the red cells, influence the haemoglobin and bilirubin concentrations. Materials and MethodsSixty-two cases of haemolytic disease of the newborn due to anti-D were studied. Forty-two of these cases formed a non-selected consecutive series presenting for treatment. The remaining 20 were selected at a different period of time as a group of relatively severe cases. Forty-five infants required one or more exchange transfusions.The direct antiglobulin test, cord haemoglobin and bilirubin concentrations of the infants were determined by standard methods.Estimation of the amount of anti-D bound to infants red cells. This was carried out by 2 methods: 1) a quantitative 1251-labelled anti-y globulin technique, and 2) by estimation of the titre of anti-D after elution of antibody from the infants red cells.Quantitative antiy globulin technique. Purification, 1251-labelling and calibration of a sheep and goat anti-y globulin were carried out
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