Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:1.3.99.3 (acyl-CoA dehydrogenase)
 1,425 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Five patients aged 7 to 21 months are described who developed attacks of coma after a short prodromal illness with diarrhea or vomiting or both. Four had concomitant hypoglycemia, and all had hypoketonemia, with excessive urinary excretion of medium-chain dicarboxylic acids, medium-chain (omega-1)-hydroxyacids, suberylglycine, hexanoylglycine, and octanoylcarnitine. All patients accumulated octanoic acid, decanoic acid, and cis-4-decenoic acid in plasma. Fibroblasts from three patients showed a decreased rate of octanoate oxidation (10%, 12%, and 29% of control values, respectively). These findings suggest a deficiency of medium-chain acyl-CoA dehydrogenase, most probably an autosomal recessive inherited metabolic disorder. Two of the patients died during an acute attack, and a third had severe neurologic sequelae; the two remaining patients recovered. Plasma free carnitine levels were low, but total carnitine was normal. The three surviving patients underwent a fasting test, which did not lead to hypoglycemia, although hypoketonemia, dicarboxylic aciduria, and excessive mobilization of fatty acids did occur. The surviving patients were maintained on frequent carbohydrate-enriched meals.
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PMID:Octanoic acidemia and octanoylcarnitine excretion with dicarboxylic aciduria due to defective oxidation of medium-chain fatty acids. 403 35

Octanoyl-beta-D-glucuronide was identified in the urine of five patients with hypoketotic hypoglycemia and dicarboxylic aciduria due to a defective beta-oxidation of medium-chain fatty acids. Two subjects who ingested large amounts of medium-chain triglycerides also excreted large amounts of the glucuronide. The substance was extracted from the urine with ethyl acetate and analyzed by: (1) gas chromatography/mass spectrometry (GC-MS) of the trimethylsilyl derivative and (2) preparative one-dimensional thin-layer chromatography followed by enzymatic hydrolysis with beta-glucuronidase and again GC-MS. A quantitative analysis was performed indirectly by measuring the urinary bound octanoate after the removal of octanoylcarnitine. Octanoylglucuronide represents an additional mechanism for the detoxification of octanoate; its formation may be of help for the maintenance of carnitine homeostasis in patients with medium-chain acyl-CoA dehydrogenase deficiency.
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PMID:Octanoylglucuronide excretion in patients with a defective oxidation of medium-chain fatty acids. 406 33

A new patient with medium-chain dicarboxylic aciduria and suberyl glycinuria during an attack of acute illness is reported. When, inadvertently he was given medium-chain triglycerides for 2 days, the excretion of abnormal metabolites of medium-chain fatty acids increased and hepatomegaly became more pronounced. During remission a low excretion of the metabolites were observed. After 16 h of fasting hypoglycaemia was accompanied by an increase of urinary dicarboxylic acids and psi-hydroxyacids similar to that found on admission. Interestingly this urinary organic acid pattern persisted 8 h after intravenous administration of glucose. In a blood sample obtained after 16 h of fasting there was hypoketonaemia and increased levels of total free fatty acids, octanoic, decanoic and cis-4-decenoic acids. These biochemical data suggest the existence of a deficiency at the level of medium-chain acyl-CoA dehydrogenase.
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PMID:A new patient with dicarboxylic aciduria suggestive of medium-chain Acyl-CoA dehydrogenase deficiency presenting as Reye's syndrome. 643 27

Two patients with hypoketotic hypoglycaemia and dicarboxylic aciduria are described. Studies of their urinary organic acids by gas chromatography-mass spectrometry (GC-MS) showed an excretion of dicarboxylic acids (adipic suberic and sebacic acids), unsaturated dicarboxylic acids (cis-octenedioic and decenedioic acids),5-hydroxyhexanoic acid, hexanoyl-glycine and suberylglycine. Deficiency of the medium chain acyl-CoA dehydrogenase (MCAD) in fibroblasts was documented for both children. Despite a similar presentation (hypoglycaemic coma), organic acid profile (dicarboxylic aciduria and suberylglycine excretion) and enzyme deficiency (MCAD), they did not respond similarly to glucose infusion.
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PMID:Gas chromatography--mass spectrometry (GC--MS) diagnosis of two cases of medium chain acyl-CoA dehydrogenase deficiency. 643 44

Various types of dicarboxylic aciduria are known, most of them are accompanied by non-ketotic hypoglycaemia. For the differential diagnosis of these conditions several methods of investigation have been used: (1) analysis of urinary organic acids in both native and hydrolysed samples, (2) analysis of free and esterified carnitine, the latter by means of chromatographic separation and identification of acyl moieties, (3) analysis of plasma organic acids, including the so-called free fatty acids, (4) a prolonged fasting test with serial measurements of the aforementioned parameters and close monitoring of the blood glucose and (5) an oral loading test with medium chain triglycerides accompanied by the same measurements as those named in item (4). So far differentiation has been made between patients with a metabolite profile most probably characteristic of medium chain acyl-CoA dehydrogenase deficiency and other dicarboxylic acidurias, among the latter systemic carnitine deficiency. Patients belonging to the first group accumulate octanoate, decanoate and cis-4-decenoate in their plasma; they excrete hexanoylglycine, octanoylcarnitine and suberylglycine in addition to the usual C6-C10 dicarboxylic acids. There was a high prevalence of an increased plasma free fatty acid/3-hydroxybutyrate ratio.
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PMID:The differential diagnosis of dicarboxylic aciduria. 643 45

Three children in two families presented in early childhood with episodes of illness associated with fasting which resembled Reye's syndrome: coma, hypoglycemia, hyperammonemia, and fatty liver. One child died with cerebral edema during an episode. Clinical studies revealed an absence of ketosis on fasting (plasma beta-hydroxybutyrate less than 0.4 mmole/liter) despite elevated levels of free fatty acids (2.6-4.2 mmole/liter) which suggested that hepatic fatty acid oxidation was impaired. Urinary dicarboxylic acids were elevated during illness or fasting. Total carnitine levels were low in plasma (18-25 mumole/liter), liver (200-500 nmole/g), and muscle (500-800 nmole/g); however, treatment with L-carnitine failed to correct the defect in ketogenesis. Studies on ketone production from fatty acid substrates by liver tissue in vitro showed normal rates from short-chain fatty acids, but very low rates from all medium and long-chain fatty acid substrates. These results suggested that the defect was in the mid-portion of the intramitochondrial beta-oxidation pathway at the medium-chain acyl-CoA dehydrogenase step. A new assay for the electron transfer flavoprotein-linked acyl-CoA dehydrogenases was used to test this hypothesis. This assay follows the decrease in electron transfer flavoprotein fluorescence as it is reduced by acyl-CoA-acyl-CoA dehydrogenase complex. Results with octanoyl-CoA as substrate indicated that patients had less than 2.5% normal activity of medium-chain acyl-CoA dehydrogenase. The activities of short-chain and isovaleryl acyl-CoA dehydrogenases were normal; the activity of long-chain acyl-CoA dehydrogenase was one-third normal. These results define a previously unrecognized inherited metabolic disorder of fatty acid oxidation due to deficiency of medium-chain acyl-CoA dehydrogenase.
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PMID:Medium-chain acyl-CoA dehydrogenase deficiency in children with non-ketotic hypoglycemia and low carnitine levels. 664 97

A patient with recurrent severe hypoglycemia resembling Reye's syndrome was found to have large accumulations of omega -- 1 hydroxy and keto acids in serum and urine that persisted following clinical recovery. A deficiency of mitochondrial medium chain acyl CoA dehydrogenase activity is proposed on the basis of evidence obtained using gas chromatographic mass spectrometric techniques. Analytical data is presented that will allow the recognition of ths variant presenting in other patients.
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PMID:Profiles in altered metabolism. II--(omega -- 1)-hydroxyacid excretion in a case of episodic hypoglycemia. 689 90

When amino acids were infused at a rate of 4 g/kg/day, an infant with hypoglycemia, metabolic acidemia and chronic regurgitation showed hypersarcosinemia and excreted abnormal amounts of sarcosine, isovalerylglycine, isobutyrylglycine, alpha-methylbutyrylglycine, and beta-hydroxyisovaleric, glutaric, alpha-hydroxyglutaric, methylsuccinic, and alpha-hydroxyisobutyric acids in urine. On all other occasions, when protein intake was lower and lipid intake higher, urine organic acids were dominated by methylsuccinic, ethylmalonic, and alpha-hydroxyglutaric acids, and hypersarcosinemia was absent. Autopsy showed severe fatty changes in liver, kidneys, and skeletal muscle. A previous female sibling had died with similar autopsy findings at 4 days of age. While activity of glutaryl-CoA dehydrogenase was completely deficient in liver and almost completely so in kidney, it was normal in cultured fibroblasts in the presence of flavin adenine dinucleotide (FAD) and only marginally low in its absence. Incorporation of D-(2-14C) riboflavin into flavin mononucleotides (FMN) and FAD by kidney tissue was normal. The authors conclude that this disorder is not due to generalized deficiency of glutaryl-CoA dehydrogenase or to a defect in FAD synthesis. The amino and organic acid abnormalities noted are most consistent with a defect in the flavoprotein which transfers electrons from the FAD of sarcosine and acyl-CoA dehydrogenases into the respiratory chain, although a defect in intercompartmental transfer of C4--5 acyl CoA esters across cell membranes is not excluded. The variability of the organic aciduria, which possibly reflects changes in protein and fat intake, suggests that a previous name for this disorder, i.e., glutaric aciduria type II, is inappropriate and should be replaced, perhaps by "multiple acyl-CoA dehydrogenase deficiency."
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PMID:Multiple acyl-CoA dehydrogenase deficiency (glutaric aciduria type II) with transient hypersarcosinemia and sarcosinuria; possible inherited deficiency of an electron transfer flavoprotein. 736 May 17

The oxidation of long-chain fatty acids requires a series of enzymes which are located in or on the mitochondrial membranes. These include carnitine palmitoyltransferases I and II, a carnitine-acylcarnitine translocase and, newly discovered, very long-chain acyl-CoA dehydrogenase and the mitochondrial trifunctional protein. These last two chain-shorten acyl-CoA esters to the point where they can be transferred to the more soluble medium- and short-chain-specific enzymes within the mitochondrial matrix. The disorders of long-chain fatty acid oxidation show a rather similar range of clinical and biochemical features, though with different emphasis in the different conditions. Patients with severe defects usually present early with acute attacks of hypoketotic hypoglycaemia and impaired liver function, or with cardiomyopathy or cardiac arrhythmia. In milder variants, skeletal myopathy with intermittent myoglobinuria develops later in life. 3-Hydroxyacyl-CoA dehydrogenase deficiency is unusual in producing peripheral neuropathy and retinitis pigmentosa. Treatment is based on the avoidance of fasting and replacement of normal dietary fat by medium-chain triglyceride, the medium-chain fatty acids entering the mitochondria in a carnitine-independent manner and bypassing the long-chain part of the spiral. Diagnosis must ultimately be based on direct assay of the enzyme involved, but preliminary indicators may come from determination of carnitine and intermediate metabolites in plasma, urinary organic acid profiling, and radioisotopic screening assays with lymphocytes or cultured fibroblasts.
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PMID:Disorders of mitochondrial long-chain fatty acid oxidation. 749 5

The toxicity of most drugs and chemicals is associated with their enzymatic conversion to toxic metabolites. Bioactivation reactions occur in a range of organs and organelles, including mitochondria. The toxicity of haloalkene-derived cysteine S-conjugates and related 4-thiaalkanoates is associated with their mitochondrial bioactivation. Toxic cysteine S-conjugates are formed by the glutathione S-transferase-catalyzed addition of glutathione to haloalkenes to give glutathione S-conjugates, which are hydrolyzed by gamma-glutamyltransferase and dipeptidases. Mitochondrial cysteine conjugate beta-lyase-catalyzed bioactivation of cysteine S-conjugates affords unstable alpha-halothiolates. Haloalkene-derived 4-thiaalkanoates, which are analogs of cysteine S-conjugates that lack an alpha-amino group, undergo bioactivation by the enzymes of fatty acid beta-oxidation to give 3-hydroxy-4-thiaalkanoates that eliminate alpha-halothiolates. alpha-Halothiolates yield alkylating and acylating agents that interact with cellular macromolecules and thereby cause cell damage. Mitochondrial dysfunction is the hallmark of cysteine S-conjugate-induced cytotoxicity: decreased respiration, decreased ATP and total adenine nucleotide concentrations, depletion of the mitochondrial glutathione content, perturbations in cellular Ca2+ homeostasis, and damage to the mitochondrial genome are seen with cysteine S-conjugates. Similar changes are observed with cytotoxic 4-thiaalkanoates, but inhibition of the medium-chain acyl-CoA dehydrogenase and hypoglycemia are also observed.
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PMID:Mitochondrial bioactivation of cysteine S-conjugates and 4-thiaalkanoates: implications for mitochondrial dysfunction and mitochondrial diseases. 759 25


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