Metabolism of 1-13C-propionate in vivo in patients with disorders of propionate metabolism.

Metabolism of propionate in human subjects was studied using bolus administration of 1-13C-propionate i.v. or orally. The study population consisted of five patients with propionic acidemia (PA), eight with methylmalonic acidemia (MMA; four responsive to vitamin B12), one each with multiple carboxylase deficiency and transcobalamin-II deficiency, and five healthy volunteers. Concentrations of 1-13C-propionate were measured in blood in three patients with PA, two with MMA, and two controls. Breath samples were obtained at intervals during 3 h after the dose, isotopic enrichment of 13CO2 was measured, and the cumulative percentage of recovery of 13C was calculated from the individual's predicted resting energy expenditure. Recovery of 13CO2 and half-time of 1-13C-propionate in PA were significantly less than normal. The same parameters in MMA were below normal, but significantly greater than in PA. Recovery of 13CO2 was well correlated with clinical severity in PA, but did not correlate in MMA. Differences between MMA and PA may indicate different distribution of propionate pools, differences in inducibility of residual enzyme activities, or an alternate pathway for decarboxylation of propionate available in MMA but not PA. Only one patient with PA demonstrated increased 13CO2 production during biotin treatment. In a B12-responsive MMA patient, no differences were noted within 2 d of initiating treatment with B12, but there was an increase in 13CO2 production after 4 mo. Recovery of 13CO2 was normal in the patient with transcobalamin-II deficiency before and after treatment with vitamin B12.(ABSTRACT TRUNCATED AT 250 WORDS)

Multiple carboxylase deficiency due to deficiency of biotinidase.

A patient with biotinidase deficiency was studied in whom the first admission to hospital for acidosis occurred at 5 years of age. Sensorineural abnormalities of the optic and auditory nerves antedated diagnosis and treatment with biotin, and these sensory losses did not resolve with treatment. The other clinical manifestations of the disease were highly responsive to biotin. Biotinidase was assayed using 14C-labeled natural substrate. The activity in the patient approximated 1% of the control level.

Activity of biotin-dependent and GABA metabolizing enzymes in chorionic villus samples: potential for 1st trimester prenatal diagnosis.

We have documented the presence of five mitochondrial enzymes in samples of chorionic villus tissue and measured the levels of activity. Three of the enzymes catalyse biotin-dependent reactions. These are propionyl-CoA carboxylase, 3-methylcrotonyl-CoA carboxylase and pyruvate carboxylase. The other enzymes, 4-aminobutyric acid aminotransferase and succinic semialdehyde dehydrogenase, are involved in the degradation of the central inhibitory neurotransmitter GABA. Distinct diseases in which there is deficiency of each of these enzymes have been documented in man. Significant levels of activity were observed for all five enzymes in chorionic villus tissue. This methodology should permit early prenatal diagnosis of deficiencies of these enzymes by chorionic villus biopsy in the first trimester.

Proximal renal tubular acidosis in methylmalonic acidemia.

A patient with methylmalonic acidemia was found to have a persistent hyperchloremic acidosis. Investigation documented the presence of a proximal renal tubular acidosis. Between 14 and 18 months of age the urinary pH was as high as 8.0 when the serum bicarbonate was 17 mEq/liter and the threshold for bicarbonate was at 16-17 mEq/liter. When restudied at 33 months of age, the threshold had risen to 20 mEq/liter, but this was still abnormal and supplemental treatment was required to keep the serum concentration of bicarbonate above 20 mEq/liter. It is postulated that organic acid metabolites which accumulate in this and related disorders may interfere with renal tubular function as has been shown for maleic acid in experimental animals.