7 research outputs found
Functional hyperactivity of hepatic glutamate dehydrogenase as a cause of the hyperinsulinism/hyperammonemia syndrome: effect of treatment
OBJECTIVE: The combination of persistent hyperammonemia and hypoketotic
hypoglycemia in infancy presents a diagnostic challenge. Investigation of
the possible causes and regulators of the ammonia and glucose disposal may
result in a true diagnosis and predict an optimum treatment. PATIENT:
Since the neonatal period, a white girl had been treated for
hyperammonemia and postprandial hypoglycemia with intermittent
hyperinsulinism. Her blood level of ammonia varied from 100 to 300
micromol/L and was independent of the protein intake. METHODS: Enzymes of
the urea cycle as well as glutamine synthetase and glutamate dehydrogenase
(GDH) were assayed in liver tissue and/or lymphocytes. RESULTS: The
activity of hepatic GDH was 874 nmol/(min.mg protein) (controls: 472-938).
Half-maximum inhibition by guanosine triphosphate was reached at a
concentration of 3.9 micromol/L (mean control values:.32). The ratio of
plasma glutamine/blood ammonia was unusually low. Oral supplements with
N-carbamylglutamate resulted in a moderate decrease of the blood level of
ammonia. The hyperinsulinism was successfully treated with diazoxide.
CONCLUSION: A continuous conversion of glutamate to 2-oxoglutarate causes
a depletion of glutamate needed for the synthesis of N-acetylglutamate,
the catalyst of the urea synthesis starting with ammonia. In addition, the
shortage of glutamate may lead to an insufficient formation of glutamine
by glutamine synthetase. As GDH stimulates the release of insulin, the
concomitant hyperinsulinism can be explained. This disorder should be
considered in every patient with postprandial hypoglycemia and
diet-independent hyperammonemia
Rapid isolation of muscle and heart mitochondria, the lability of oxidative phosphorylation and attempts to stabilize the process in vitro by taurine, carnitine and other compounds
Neonatal cardiomyopathy and lactic acidosis responsive to thiamine
A congestive cardiomyopathy was diagnosed in a girl at the age of 4 weeks. In the weeks following she developed general muscle hypotonia and plasma lactate increased to 8.5 mmol/L. Biochemical investigations of a muscle biopsy at the age of 3 months showed a deficiency in the oxidation of all substrates tested: pyruvate plus malate, 2-ketoglutarate and palmitate plus malate. After freezing and thawing of the homogenate and the addition of essential cofactors, the oxidation of the ketoacids normalized. The oxidation defect in the untreated homogenate can be explained by a deficiency in one of the cofactors (such as thiamine pyrophosphate, NAD+ or CoASH), or by a defect in the oxidative phosphorylation. Treatment with thiamine and carnitine resulted in a decrease in blood lactate to normal levels and a dramatic clinical improvement. Suspension of thiamine caused deterioration of her clinical condition and lactic acidaemia. The thiamine therapy was then continued. The girl is now 6 years old and in perfect health
Riboflavin-responsive complex I deficiency
Three patients from a large consanguineous family, and one unrelated patient had exercise intolerance since early childhood and improved by supplementation with a high dosage of riboflavin. This was confirmed by higher endurance power in exercise testing. Riboflavin had been given because complex I, which contains riboflavin in FMN, one of its prosthetic groups, had a very low activity in muscle. Histochemistry showed an increase of subsarcolemmal mitochondria. The low complex I activity contrasted with an increase of the activities of succinate dehydrogenase, succinate-cytochrome c oxidoreductase and cytochrome c oxidase. Isolated mitochondria from these muscle specimens proved deficient in oxidizing pyruvate plus malate and other NAD+-linked substrates, but oxidized succinate and ascorbate at equal or higher levels than controls. Two years later a second biopsy was taken in one of the patients, and the activity of complex I had increased from 16% to 47% of the average activity in controls. In the four biopsies, cytochrome c oxidase activity correlated negatively with age. We suspect that this is due to reactive oxygen species generated by the proliferating mitochondria and peroxidizing unsaturated fatty acids of cardiolipin. Three of the four patients had low blood carnitine, and all were found to have hypocarnitinemic family members
Oxidative phosphorylation in human muscle in patients with ocular myopathy and after general anaesthesia
Abstract
The fuel preference of human muscle mitochondria has been given. Substrates which are oxidized with low velocity cannot be used to detect defects in oxidative phosphorylation. After general anaesthesia, the oxygen uptake with the different substrates is much lower than after local analgesia. The latter was therefore used in the subsequent study. In 15 out of 18 patients with ocular myopathy, defects in oxidative phosporylation could be detected in isolated muscle mitochondria prepared from freshly biopsied tissue. Measurement of the activity of segments of the respiratory chain in homogenate from frozen muscle showed no, or minor defects. In two of these patients showing exercise intolerance, decreased oxidation of NAD+-linked substrates and apparently normal mitochondrial DNA, further study revealed deficiency of pyruvate dehydrogenase in a girl with ptosis and a high Km of complex I for NADH in a man. Both patients responded to vitamin therapy
Biochemie van spierdydystrofie
Rede, uitgesproken bij de aanvaarding van het ambt van Gewoon Lector in de Biochemie, aan de Erasmus Universiteit te Rotterdam op 29 mei 197