Mutant holocarboxylase synthetase: evidence for the enzyme defect in early infantile biotin-responsive multiple carboxylase deficiency.

Biotin-responsive multiple carboxylase deficiency is an inherited disorder of organic acid metabolism in man in which there are deficiencies of propionyl-coenzyme A (CoA), 3-methylcrotonyl-CoA, and pyruvate carboxylases that can be corrected with large doses of biotin. It has been proposed that the basic defect in patients with the early infantile form of the disease is in holocarboxylase synthetase, the enzyme that covalently attaches biotin to the inactive apocarboxylases to form active holocarboxylases. We have developed an assay for holocarboxylase synthetase in extracts of human fibroblasts using as substrate apopropionyl-CoA carboxylase partially purified from livers of biotin-deficient rats. Fibroblasts from the initial patient with the infantile form of biotin-responsive multiple carboxylase deficiency were shown to have abnormal holocarboxylase synthetase activity with a maximum velocity about 30-40% of normal, a Km for ATP of 0.3 mM similar to the normal Km of 0.2 mM, and a highly elevated Km for biotin of 126 ng/ml, about 60 times the normal Km of 2 ng/ml. These results show that the primary defect in this patient is a mutation affecting holocarboxylase synthetase activity, and thus a genetic defect of the metabolism of biotin.

[1]  D. Crowell,et al.  Multiple carboxylase deficiency: clinical and biochemical improvement following neonatal biotin treatment. , 1981, Pediatrics.

[2]  J. Thoene,et al.  Biotin-responsive carboxylase deficiency associated with subnormal plasma and urinary biotin. , 1981, The New England journal of medicine.

[3]  J. Barnes,et al.  Pocket Programmable Calculators in Biochemistry , 1980 .

[4]  K. Roth,et al.  Holocarboxylase synthetase deficiency: a biotin-responsive organic acidemia. , 1980, The Journal of pediatrics.

[5]  B. Robinson,et al.  Biotin-response organicaciduria. Multiple carboxylase defects and complementation studies with propionicacidemia in cultured fibroblasts. , 1979, The Journal of clinical investigation.

[6]  S. Packman,et al.  MULTIPLE BIOTIN-DEPENDENT CARBOXYLASE DEFICIENCIES ASSOCIATED WITH DEFECTS IN T-CELL AND B-CELL IMMUNITY , 1979, The Lancet.

[7]  L. Taitz,et al.  BIOTIN-RESPONSIVE ALOPECIA AND DEVELOPMENTAL REGRESSION , 1979, The Lancet.

[8]  W. Nyhan,et al.  Propionyl-CoA Carboxylase Deficiency in a Patient with Biotin-responsive 3-Methylcrotonylglycinuria , 1977, Pediatric Research.

[9]  A. Landman,et al.  The binding of biotin to sepharose-avidin column. Demonstration of the affinity chromatography technique. , 1976, Journal of chemical education.

[10]  G. Preti,et al.  Beta-methylcrotonic aciduria associated with lactic acidosis. , 1976, The Journal of pediatrics.

[11]  M. J. Coon,et al.  THE ENZYMATIC SYNTHESIS OF PROPIONYL COENZYME A HOLOCARBOXYLASE FROM D-BIOTINYL 5'-ADENYLATE AND THE APOCARBOXYLASE. , 1965, The Journal of biological chemistry.

[12]  George A. Bray,et al.  A simple efficient liquid scintillator for counting aqueous solutions in a liquid scintillation counter , 1960 .

[13]  E. J. Simon,et al.  The Preparation of S-Succinyl Coenzyme A , 1953 .

[14]  Oliver H. Lowry,et al.  Protein measurement with the Folin phenol reagent. , 1951, The Journal of biological chemistry.

[15]  Y. Kaziro [31] Crystalline propionyl-CoA carboxylase from pig heart , 1969 .

[16]  S. Hutner,et al.  A new assay method for biotin in blood, serum, urine, and tissues. , 1962, Analytical biochemistry.