EC:3.5.1.12 - FACTA Search

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Query: EC:3.5.1.12 (biotinidase)
392 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

There are two types of multiple carboxylase deficiency, the neonatal form with holocarboxylase synthetase defect and the late-onset form with biotinidase deficiency. We report our preliminary experiences in screening for biotinidase deficiency. In total 43,493 infants were screened for the deficiency of the enzyme biotinidase; 0.14% false positive results that necessitated requests for second blood samples and two newborns with a biotinidase defect were identified during our pilot study. The definitive diagnosis required the demonstration of enzyme deficiency in serum. Both of the patients have residual biotinidase activity: 3.59% and 7.55%. These two newborns with biotinidase deficiency are treated with daily supplementation of free biotin. According to our preliminary results biotinidase deficiency satisfies all the criteria for incorporation into the national newborn mass screening.
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PMID:Neonatal screening for biotinidase deficiency in east-Hungary. 177 52

Vitamin therapy for inborn errors of metabolism has been used in thiamin-responsive maple syrup urine disease, homocystinuria (pyridoxine-responsive cystathionine synthetase deficiency), disorders of vitamin B12 metabolism and defective methylmalonyl-CoA mutase, biotinidase and holocarboxylase synthetase deficiency, multiple acyl-CoA dehydrogenase deficiency, defective methylene tetrahydrofolate reductase and complex III deficiency (respiratory chain). The inherited defects lead either to alterations of the apoenzymes or to deficiencies of enzymes involved in the processing or reutilization of the vitamins. The application of pharmacological doses of vitamins can be useful in these disorders in order to overcome diminished apoenzyme binding, to saturate residual activities of defective processing enzymes, to compensate for pathological losses, or for acting as electron carriers.
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PMID:Vitamins and inherited human errors of metabolism. 250 94

Nutritional approaches are available for the management of several different classes of inborn metabolism errors. In phenylketonuria (PKU), phenylalanine is not properly metabolized; and its accumulation leads to neurologic dysfunction and metal retardation. Altering the diet to limit phenylalanine intake led to remarkable improvement in children with PKU. It was later found that instituting dietary therapy immediately after identification of the disorder in newborns prevented mental retardation. Throughout the 1960s nutritional therapies were found for other inborn disorders, including galactosemia, maple syrup urine disease, and homocystinuria. For the group of disorders associated with defects in the urea cycle, leading to profound hyperammonemia, therapy based on the concept of waste nitrogen excretion (i.e., by increasing excretion of urea cycle intermediates in the urine, nitrogen that would otherwise recycle as ammonia can be eliminated) dramatically produced better control of hyperammonemia and its consequences. Some inborn errors of metabolism respond to vitamin therapy. Biotin-related multiple carboxylase synthetase deficiency can be produced by either of two enzyme defects--holocarboxylase synthetase deficiency or biotinidase deficiency. Both are treatable with biotin supplementation. The symptoms of multiple carboxylase deficiency can also occur after intestinal resection or ingestion of raw eggs. Multiple carboxylase deficiency has been treated successfully in utero by giving the mother biotin supplements. Peroxisomal disorders may respond to dietary management. Liver disease in hereditary tyrosinemia may be accentuated by hypermethioninemia and treated by controlling the blood methionine level. Glycogen storage disease Type I, which causes hypoglycemia, can be controlled by oral administration of cornstarch.
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PMID:Nutritional therapy for selected inborn errors of metabolism. 268 28

There appear to be at least two underlying aetiologies for combined carboxylase deficiency; firstly, a failure of biotinylation of apocarboxylases due to a mutation of holocarboxylase synthetase (EC 6.3.4.10) which results in an enzyme with a high Km with respect to biotin and secondly, a failure of biotinylation due to a lowered availability of biotin due to biotinidase deficiency (EC 3.5.1.12). In both these disorders secondary defects of all four biotin-dependent carboxylases result which in turn causes the excretion of the metabolites characteristic of the isolated carboxylase deficiencies. In addition, both disorders respond biochemically and clinically to the administration of large amounts of biotin.
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PMID:Enzyme studies in biotin-responsive disorders. 286 73

1. The multiple carboxylase deficiencies are inborn errors in the metabolism of biotin in which there is defective activity of propionyl CoA carboxylase, 3-methylcrotonyl CoA carboxylase and pyruvate carboxylase. 2. Two distinct disorders have been described. 3. In one the fundamental defect is in the enzyme holocarboxylase synthetase which catalyzes the molecular activation of the apocarboxylase proteins. 4. In the other the fundamental defect is in biotinidase which catalyzes the reutilization of biotin and may be involved in its digestion and intestinal absorption.
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PMID:Multiple carboxylase deficiency. 328 72

The important role of biotin in human physiology has been highlighted by the recognition of two newly discovered human inborn errors of the metabolism of biotin. The molecular defect in the neonatal-onset disease is in the enzyme holocarboxylase synthetase. The defect in the later infantile-onset disease is in the enzyme biotinidase. Both disorders present with impressive clinical manifestations involving the skin and hair. In the neonatal disease, alopecia totalis is associated with a bright red scaly total body eruption. In biotinidase deficiency, the alopecia is more patchy and the skin lesions resemble acrodermatitis enteropathica. Both disorders are complicated by recurrent episodes of life-threatening acidosis and massive ketosis.
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PMID:Inborn errors of biotin metabolism. 331 10

Ten patients with biotin-dependent, chronic progressive encephalopathies were studied retrospectively. In four patients, the underlying disease was either total or partial deficiency of biotinidase. In one patient, the disease was caused by a lack of holocarboxylase synthetase activity. Four patients presented with Leigh encephalopathy. However, a biochemical defect could not always be confirmed. All patients required the administration of large doses of biotin to maintain normal neurologic function.
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PMID:The clinical spectrum of biotin-treatable encephalopathies in Saudi Arabia. 772 84

The Institution's experience with hypoglycemia in different types of organic acidemias, branched chain amino acidemia (MSUD), and disorders of fructose metabolism was reviewed retrospectively. The charts of 144 patients who were followed for 1-5 years were studied for the severity and frequency of hypoglycemia. The patients were mainly Saudi; however, 10-25% were from neighboring countries. Therefore, the observations pertain to the genetic groups in the Arabian peninsula. Organic acidemias which primarily manifest with neurologic signs, such as 4-hydroxybutyric aciduria, infantile onset 3-methylglutaconic aciduria, and glutaric aciduria type 1 never showed hypoglycemia. Patients with beta-ketothiolase deficiency, biotinidase deficiency, or intermittent or intermediate MSUD, also did not have hypoglycemia during metabolic crisis. Hypoglycemia was rare and mild among neonates with classic MSUD, ethylmalonic aciduria, and isovaleric acidemia. Less than 50% of the patients with MSUD older than 8 months, pyruvate carboxylase deficiency, methylmalonic acidemia, or propionic acidemia had hypoglycemia during metabolic crisis. On the other hand, patients with 3-hydroxy-3-methyl glutaryl-CoA lyase deficiency, holocarboxylase synthetase deficiency, medium or long-chain acyl-CoA dehydrogenase deficiency, neonatal onset 3-methylglutaconic aciduria, glutaric aciduria type 2, and disorders of fructose metabolism invariably had moderate-to-severe hypoglycemia associated with metabolic crisis. The purpose of this report is to provide the pediatrician, particularly in the Middle East, with a diagnostic guideline to the identification and management of different types of organic acidemias, based on co-existing hypoglycemia.
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PMID:Comparative frequency and severity of hypoglycemia in selected organic acidemias, branched chain amino acidemia, and disorders of fructose metabolism. 772 85

There are two genetically determined biotin-dependent disorders. The first is holocarboxylase synthetase (HCS) deficiency and the second biotinidase deficiency. HCS catalyzes the reaction in which active holocarboxylases are synthesized from inactive apocarboxylases. Biotin is required for this synthesis. Biotinidase facilitates the release and recycling of free biotin. Deficiency of either HCS or biotinidase is characterized by certain neurological, cutaneous and biochemical abnormalities. In this paper, six patients with biotinidase and two patients with HCS deficiency are described. Among the most common neurological findings were hypotonia (6/8), seizures (2/6) and optic atrophy (2/8). Dermatitis and conjunctivitis were present in three and four patients, respectively. All patients had low blood pH bicarbonate levels. Serum lactate was increased in all and pyruvate in six cases. Two patients with biotinidase deficiency presented earlier than the mean age of onset previously reported in the literature. Detection of eight cases during the past few years at a single metabolic unit indicates that biotinidase deficiency is not rare in Turkey, where the frequency of some other metabolic disorders has also been reported to be high. We suggest that biotin-dependent disorders should be considered in all infants with neurological symptoms, particularly those with jerks, even if other signs such as alopecia, seborrheic dermatitis and acidosis are not evident, regardless of the age of presentation.
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PMID:Inborn errors of biotin metabolism. Clinical and laboratory features of eight cases. 782 32

We report a 21-month-old female patient whose urine organic acid profile suggested a biotin utilization abnormality consistent with multiple carboxylase deficiency. For most previously reported patients, holocarboxylase synthetase deficiency has correlated with the early-onset variant of multiple carboxylase deficiency; conversely, biotinidase deficiency has been characteristic of the late-onset form. In vitro enzyme studies revealed that our patient suffered from holocarboxylase synthetase deficiency. We suggest that holocarboxylase synthetase deficiency should be considered in the differential diagnosis of older patients in whom there is suspicion of a defect in biotin metabolism.
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PMID:Late-onset holocarboxylase synthetase deficiency. 898 46

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