UMLS:C0268596 - FACTA Search

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Query: UMLS:C0268596 (EMA)
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Newly identified forms of electron transfer flavoprotein (ETF) deficiency in two patients with glutaric aciduria type II (GA II) were described. GA II has been attributed to a defect of either ETF or ETF dehydrogenase, resulting in multiple acyl-CoA dehydrogenation deficiency. ETF is a mitochondrial flavoprotein consisting of an alpha-subunit, alpha-ETF, and a beta-subunit, beta-ETF. We used pulse-chase experiments to examine the biosynthesis of ETF in fibroblasts from two patients with GA II. Patient 1 was a boy with the neonatal onset form, but without congenital anomalies, who is living at age 2 y. A defect of beta-ETF biosynthesis was noted in this patient. Patient 2 was a boy with the neonatal onset form with congenital anomalies who died on the 3rd postnatal day. He presented with a peculiar face and polycystic kidneys. In patient 2, both alpha- and beta-ETF were synthesized, but both the subunits were rapidly degraded. The lability of ETF was considered to be the cause of GA II in this patient. These two cases appear to be new forms of ETF deficiency in GA II.
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PMID:Newly identified forms of electron transfer flavoprotein deficiency in two patients with glutaric aciduria type II. 200 Feb 60

A boy, now 22 months old, is described who presented at the age of 6 weeks with hypoglycaemic coma. The excretion pattern of organic acids in the urine was consistent with glutaric aciduria type II (GA II). A high energy diet low in fat and protein was given. Treatment with riboflavine resulted in an improvement of the metabolite profile, and the patient gained weight. However, a tendency to hypoglycaemia and severe hypotonia persisted. Due to muscle weakness, aggravated by infections, artificial ventilation was necessary during three periods. Serum carnitine level was low. Treatment with carnitine, started during the third period of artificial ventilation, led to some improvement of muscle strength, but he still could not breathe without support. Treatment with insulin, combined with further enrichment of the diet with glucose, resulted in an increase in muscular strength and in weight gain. Thirteen families with GA II have been described upto now. This is the first patient with a severe form of the disorder wo has survived the 1st year of life. Treatment and metabolic studies are presented.
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PMID:Glutaric aciduria type II: treatment with riboflavine, carnitine and insulin. 639 38

Incubation of intact fibroblasts from a patients with glutaric aciduria type II with [2-14C]riboflavin showed normal synthesis of flavin mononucleotide and flavin adenine dinucleotide. This is taken as evidence for normal transport of riboflavin into the cells and normal activity of riboflavin kinase (EC 2.7.1.26) and flavin mononucleotide adenylyltransferase (EC 2.7.7.2). The ability of intact fibroblasts to oxidize 1-14C-fatty acids and [6-14C]lysine is impaired in the patient which together with the urinary excretion pattern of organic acids indicates a defective dehydrogenation of fatty acid acyl-CoAs and glutaryl-CoA. However, dehydrogenation of (C6-C10) fatty acid acyl-CoA derivatives and glutaryl-CoA was normal when the dehydrogenases were measured in fibroblast homogenate with artificial electron acceptors. In vivo, these dehydrogenases transfer their electrons to CoQ10 in the main electron transport chain via electron transfer flavoprotein and electron transfer flavoprotein dehydrogenase. Glutaric aciduria type II fibroblasts showed very diminished activity when the glutaryl-CoA dehydrogenase activity was measured without artificial electron acceptor but with intact endogenous electron transport system. As the NADH and succinate oxidation seems normal in glutaric aciduria type II patients, this is strong evidence for a defect in either the electron transfer flavoprotein or the electron transfer flavoprotein dehydrogenase.
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PMID:Glutaric aciduria type II: evidence for a defect related to the electron transfer flavoprotein or its dehydrogenase. 643 13

Using cultured skin fibroblasts, we studied the heterogeneity of inborn errors of leucine metabolism such as isovaleric acidemia (IVA), glutaric aciduria type II (GA II), and multiple carboxylase deficiency (MC). We first developed a simple macromolecular-labeling test to measure the ability of cells to oxidize [1-14C]isovaleric acid in situ in culture. Cells from two different lines were fused using polyethylene glycol, and the ability of the heterokaryons to oxidize [1-14C]isovaleric acid was tested by the macromolecular-labeling test. The MC line complemented with all 10 IVA lines tested; heterokaryons showed 99 +/- 68% more activity than the unfused mixture of component cells. GA II/IVA heterokaryons exhibited poor growth, but when the culture remained confluent, the GA II cells complemented with all six IVA lines tested, showing a 71 +/- 41% increase in activity. The relatively large standard deviations are due to a few experiments in which significant enhancement of macromolecular-labeling test activity was not observed upon fusion, but significant complementation was clearly observed in repeats of the same combinations. These results are consistent with our previous findings, which indicated that the decreased ability of GA II cells to oxidize isovaleryl-CoA involves a defective electron-transporting system rather than a defective isovaleryl-CoA dehydrogenase. IVA/IVA heterokaryons showed no complementation in any combination tested, indicating no detectable heterogeneity in isovaleric acidemia. This finding indicates that the same gene is mutated in all IVA lines. Previous results indicated that this gene codes for isovaleryl-CoA dehydrogenase.
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PMID:Complementation studies of isovaleric acidemia and glutaric aciduria type II using cultured skin fibroblasts. 663 May 17

The previous biochemical evidence had suggested that glutaric aciduria type II (GA II) is due to deficient dehydrogenation of multiple short-chain acyl coenzyme A's (CoA's), bu the precise biochemical mechanism underlying this disease was unknown. We investigated substrate oxidation and in vitro activities of isovaleryl CoA- and butyryl CoA dehydrogenases as well as that of electron-transferring flavoprotein (ETF) in cultured skin fibroblasts from a patient with GA II. GA II cells have a markedly decreased ability to oxidize [1-14C]butyrate, [2-14C]lysine, and [2,14C]leucine (3, 9, and 9% of control values, respectively). Mitochondrial isovaleryl CoA- and butyryl CoA dehydrogenase activities in GA II cells were determined using a tritium release assay with [2,3-3H] acyl-CoA's as substrate. When an artificial electron acceptor, phenazine methosulfate (PMS) was not added in the assay media, these activities were 108 and 113% of controls, respectively. This represents the normal abilities of the dehydrogenases in GA II cells to bind the substrate and to catalyze tritium exchange between the bound substrate and solvent. When PMS was added to the assay mixture, these activities were 88 and 70% of control values, respectively, indicating that these enzymes can both dehydrogenate their substrates normally and then transfer electrons to an acceptor (PMS). ETF activity in mitochondrial sonic supernatants from GA II cells, as assessed by a newly devised method, was 159% of control values. These observations suggest that the acyl CoA dehydrogenases themselves and ETF are not defective in GA II. Therefore, the deficiency of another common gene product necessary for the function of all the affected acyl CoA dehydrogenases must be sought to explain the etiology of GA II.
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PMID:Glutaric aciduria type II: in vitro studies on substrate oxidation, acyl-CoA dehydrogenases, and electron-transferring flavoprotein in cultured skin fibroblasts. 720 50

We describe on a 3-year-old child referred for evaluation and therapy of a cerebral vascular accident with residual hemiplegia and partial epilepsy. Metabolic investigations initially showed normal urinary organic acids as well as normal blood and urinary amino acids. Blood carnitine fractions had been pathological and a secondary carnitine deficiency was diagnosed and treated by oral L-carnitine supplementation. During carnitine treatment, abnormal urinary acylcarnitine profiles were noticed with excessive amounts of several carnitine esters including propionylcarnitine, butyryl- and/or isobutyryl-carnitine, isovaleryl- and/or 2-methylbutyryl-carnitine, hexanoylcarnitine and octanoylcarnitine. Subsequently, an urinary organic acid profile suggestive of glutaric aciduria type II was recorded during a clinical decompensation crisis. Morphological and biochemical studies on skeletal muscle and skin fibroblasts were performed and confirmed the existence of a defect of the mitochondrial beta-oxidation pathways with lipidic myopathy, reduced palmitate and octanoate oxidation rates in cultured fibroblasts. Glutaric aciduria type II increases the list of metabolic disorders characterized by hemiplegia and other sequelae of brain ischaemia such as stroke-like episode, seizures, aphasia, ataxia and myoclonia, similar to those seen in MELAS.
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PMID:Stroke, hemiparesis and deficient mitochondrial beta-oxidation. 795 9

A woman had two pregnancies terminated in the 20th and 21st weeks of gestation after ultrasonographic detection of enlarged hyperechoic kidneys in both fetuses. The combination of polycystic kidneys and steatotic liver found at autopsy suggested glutaric aciduria type II (GA II), which was confirmed by biochemical investigation. GA II or multiple acyl-CoA dehydrogenase deficiency is an autosomal recessively inherited defect of mitochondrial energy metabolism, which usually results in neonatal death. When pregnancy is terminated because of enlarged hyperechoic kidneys in the fetus, autopsy is crucial for establishing the correct diagnosis. The combination of polycystic kidneys and steatotic liver should bring GA II to mind, and prompt appropriate biochemical investigations so that genetic counselling and first trimester diagnosis can be offered in future pregnancies.
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PMID:Recurrent fetal polycystic kidneys associated with glutaric aciduria type II. 1005 28

Seoul Clinical Laboratories began screening newborns and high risk group blood spots with tandem mass spectrometry (MS/MS) in April 2001. The goal was to determine approximate prevalence of metabolic disorders and optimization of decision criteria for estimation of preventive effect with early diagnosis. Approximately 44,300 neonates and children were screened and the estimated prevalence (newborn/high risk group), sensitivity, specificity and recall rate amounted to 1:2000 / 1:1250, 94.1 %, 99.7 %, and 0.04 %, respectively. Confirmed 35 multiple metabolic disorders (newborn/high risk) were as follows; 16 amino acid disorders [classical PKU(3/4), BH4 deficient-hyperphenylalaninemia(0/1), Citrullinemia(2/0), Homocystinuria(0/2), Hypermethioninemia(0/1), Tyrosinemia(1/0)], OTC deficiency (0/1), MSUD (2/0), 10 organic acidurias [Propionic aciduria(2/1), Methylmalonic aciduria(0/1), Isovaleric aciduria(2/1), 3-methylcrotonylglycineuria(1/0), Glutaric aciduria type 1(2/0)], 9 fatty acid oxidation disorders [LCHAD def. (2/2), Mitochondrial TFP def.(0/1), VLCAD def.(1/0), LC3KT def.(0/1), SCAD def (1/0), MADD def (0/1). The relatively normal development of 15 patients with metabolic disorders among newborns (except for the expired) demonstrates the usefulness of newborn screening by MS/MS for early diagnosis and medical intervention. However, close coordination between the MS/MS screening laboratory and the metabolic clinic/biochemical geneticists is needed to determine proper decision of screening parameters, confirmation diagnosis, follow-up scheme and additional tests.
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PMID:Tandem mass spectrometric analysis for disorders in amino, organic and fatty acid metabolism: two year experience in South Korea. 1590 13

In humans, mutations in electron transfer flavoprotein (ETF) or electron transfer flavoprotein dehydrogenase (ETFDH) lead to MADD/glutaric aciduria type II, an autosomal recessively inherited disorder characterized by a broad spectrum of devastating neurological, systemic and metabolic symptoms. We show that a zebrafish mutant in ETFDH, xavier, and fibroblast cells from MADD patients demonstrate similar mitochondrial and metabolic abnormalities, including reduced oxidative phosphorylation, increased aerobic glycolysis, and upregulation of the PPARG-ERK pathway. This metabolic dysfunction is associated with aberrant neural proliferation in xav, in addition to other neural phenotypes and paralysis. Strikingly, a PPARG antagonist attenuates aberrant neural proliferation and alleviates paralysis in xav, while PPARG agonists increase neural proliferation in wild type embryos. These results show that mitochondrial dysfunction, leading to an increase in aerobic glycolysis, affects neurogenesis through the PPARG-ERK pathway, a potential target for therapeutic intervention.
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PMID:Mechanisms underlying metabolic and neural defects in zebrafish and human multiple acyl-CoA dehydrogenase deficiency (MADD). 2002 44

Glutaric aciduria type II, also known as multiple acyl coenzyme A dehydrogenase deficiency, is an autosomal recessive, mitochondrial organic acid disorder that impairs electron transfer flavoprotein (ETF) or ETF-ubiquinone oxidoreductase, and causes a defect in flavin metabolism or transport. It has a heterogeneous clinical presentation, with at least three different phenotypic appearances. Magnetic resonance (MR) imaging of the brain in this disorder shows a T2-weighted prolongation in the corpus striatum, putamen, caudate nucleus, middle cerebral peduncles and splenium of the corpus callosum. We report a seven-month-old male Caucasian child who presented at the paediatrics emergency department with a sweetish breath. He was clinically diagnosed with diabetic ketoacidosis. However, on MR imaging, brain evaluation and laboratory analysis, he was found to have glutaric aciduria type II.
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PMID:MR imaging findings of glutaric aciduria type II. 2050 99

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