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Enzyme
Compound
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Query: UMLS:C0004134 (
ataxia
)
15,886
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Two patients presented in early childhood with: 1) alopecia, skin rashs, and candida dermatitis; 2) severe hypotonia,
ataxia
and motor retardation; 3) frequent episodes of ketoacidosis with hyperlactacidemia. Propionic and methylcrotonic aciduria only appeared on hyperprotidic diet. Mitochondrial biotin-dependent carboxylase activities were decreased in the liver and leukocytes, but were paradoxically normal in cultured fibroblasts whatever the biotin content of the medium. These disorders responded to biotin administration, pointing to multiple biotin-dependent carboxylase deficiencies (MCD). Our report stresses the polymorphism of MCD: major discrepancies concern predominance of carboxylase deficiency, expression of MCD in cultured fibroblasts, and possible involvement of a cytoplasmic biotin enzyme, acetyl CoA carboxylase (ACC). Finally, we suggest that MCD could be of two types: impaired biotin metabolism (absorption, transport, activation) might result in generalization MCD involving ACC. Defective
holocarboxylase synthetase
might lead to a pure mitochondrial MCD with fibroblastic deficiency and presumably skin integrity.
...
PMID:[Multiple biotin-dependent carboxylase deficiencies (author's transl)]. 611 72
Two patients presented in early childhood with (i) alopecia, skin rashs, and dermatitis, (ii) severe hypotonia,
ataxia
and motor retardation, (iii) frequent episodes of ketoacidosis with hyperlactacidemia. Propionic and methylcrotonic aciduria only appeared on high protein diet. Mitochondrial biotin-dependent carboxylase activities were decreased in the liver and leukocytes, but were similar to control values in fibroblasts cultured in a biotin-free medium. In addition, the plasma biotin was found to be significantly lower than in control subjects. These disorders responded to biotin administration, pointing to biotin-dependent multiple carboxylase deficiencies (MCD). Our report stresses the polymorphism of MCD and suggests that MCD could be of two types: impaired vitamin metabolism (absorption, plasma transport), might result in low plasma biotin with generalized MCD involving acetyl CoA carboxylase. Defective mitochondrial
holocarboxylase synthetase
might lead to a pure mitochondrial MCD, with fibroblastic deficiency and presumably normal biotin metabolism.
...
PMID:Biotin dependent multiple carboxylase deficiency presenting as a congenital lactic acidosis. 719 43
Acquired biotin deficiency and the two known congenital disorders of biotin metabolism, biotinidase and
holocarboxylase synthetase
(
HCS
) deficiency, all lead to deficiency of the 4 biotin-dependent carboxylases, i.e. to multiple carboxylase deficiency (MCD). The underlying mechanism in
HCS
-deficiency, discovered in 1981, is decreased affinity of
HCS
for biotin impairing the formation of holocarboxylases at physiological biotin levels. In biotinidase deficiency, discovered in 1983, MCD results from progressive development of biotin-deficiency due to inability to liberate and recycle biotin which is lost in urine as biocytin. MCD leads to typical organic aciduria and severe life-threatening illness. Main symptoms and signs are feeding difficulties, neurologic abnormalities (hypotonia, impaired consciousness, seizures,
ataxia
) and cutaneous changes (rash, alopecia). However, the clinical presentation and age of onset are extremely variable, and organic aciduria may initially be absent in biotinidase deficiency. Therefore, the definitive diagnosis requires enzyme studies. MCD can be detected in lymphocytes obtained before treatment and biotinidase deficiency is confirmed or excluded by a colorimetric enzyme assay in plasma. Newborn screening for biotinidase deficiency has resulted in the detection of patients with partial deficiency (10-30% of mean normal activity) in addition to patients with profound deficiency (0-10%). Severe illness has been observed mainly in patients with O-activity or a Km-mutation, detection of which requires detailed investigation.
HCS
-deficiency has to be confirmed by enzyme assay in cultured cells. Both congenital disorders respond clinically and biochemically to oral biotin therapy. Whereas 10 mg/day or less is sufficient to treat profound biotinidase deficiency, the optimal biotin dose for patients with
HCS
-deficiency must be assessed individually. The prognosis of both disorders is good if biotin therapy is introduced early and continued throughout life. However, delayed commencement of therapy in biotinidase deficiency can result in irreversible neurological damage, and in
HCS
-deficiency a few patients have responded only partially even to massive biotin doses of up to 100 mg/day.
...
PMID:Multiple carboxylase deficiency: inherited and acquired disorders of biotin metabolism. 935 Apr 81
The catalytic properties of many enzymes depend on the participation of vitamins as obligatory cofactors. Vitamin B12 (cobalamin) and folic acid (folate) deficiencies in infants and children classically present with megaloblastic anemia and are often accompanied by neurological signs. A number of rare inborn errors of cobalamin and folate absorption, transport, cellular uptake, and intracellular metabolism have been delineated and identification of disease-causing mutations has improved our ability to diagnose and treat many of these conditions. Two inherited defects in biotin metabolism are known,
holocarboxylase synthetase
and biotinidase deficiency. Both lead to multiple carboxylase deficiency manifesting with metabolic acidosis, neurological abnormalities, and skin rash. Thiamine-responsive megaloblastic anemia is characterized by megaloblastic anemia, non-type I diabetes, and sensorineural deafness that responds to pharmacological doses of thiamine (vitamin B1). Individuals affected with inherited vitamin E deficiencies including
ataxia
with isolated vitamin E deficiency and abetalipoproteinemia present with a spinocerebellar syndrome similar to patients with Friedreich's ataxia. If started early, treatment of these defects by oral or parenteral administration of the relevant vitamin often results in correction of the metabolic defect and reversal of the signs of disease, stressing the importance of early and correct diagnosis in these treatable conditions.
...
PMID:Vitamin-responsive disorders: cobalamin, folate, biotin, vitamins B1 and E. 2362 2
