Partial biotinidase deficiency is usually due to the D444H mutation in the biotinidase gene (original) (raw)
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Journal of inherited metabolic disease, 2002
Mutation analysis performed on DNA from 6 Italian patients with partial biotinidase deficiency ascertained by newborn screening allowed the identification of two new mutations, c1211C > T (T404I) and a single base deletion c594delC. All patients were compound heterozygous for the D444H amino acid substitution showing that this mutation is also common in Italian patients affected by partial biotinidase deficiency.
Prospective ascertainment of complete and partial serum biotinidase deficiency in the newborn
1989
We screened 163 000 newborn filter-paper blood samples for serum biotinidase deficiency (McKusick 25326) and found 15 probands: three had complete deficiency (incidence 18.4 cases per million live births, 95% confidence interval 4-54 cases per million); the others had partial deficiency'. The positive predictive value of the test for either form of biotinidase deficiency was 9.86%. We found seasonal variation in biotinidase activity in filter-paper blood samples. The cost per te'st was Can.$0.27 (1987 dollar value) and per case of complete deficiency ascertained, $15 500. Family studies indicated that complete serum biotinidase deficiency is a homozygous phenotype and partial deficiency is the heterozygous form. Homozygous cases were treated with biotin and have shown no clinical manifestations (55 patient-months of observation). None of the heterozygotes (n = 42, age 3 months-62 years) has clinical manifestations. The number of heterozygotes found by screening was much less than predicted probably because the screening test detects mainly the samples with very low (outlier) biotinidase activity. The variant allele(s) for biotinidase deficiency was more common in French Canadians than in other ethnic groups in Quebec; there was no evidence of regional clustering or founder effect. Biotinidase (EC 3.5.1.12) cleaves the biocytin moiety (lysyl biotin) and other small biotinyl peptides present in biotin-dependent carboxylases (Wolf and Heard, 1989). The enz~ane permits free biotin to recycle and to be claimed from dietary proteins.
European journal of human genetics : EJHG, 2016
Biotinidase deficiency is a rare inherited metabolic disorder that can cause severe neurological symptoms. To prevent severe clinical presentations, it was included in the Dutch neonatal screening programme in 2007. Since then the number of cases detected has been high. This study set out to describe the incidence of the disease, the clinical and demographic characteristics of the neonates identified and the type of mutations found. In the south-western Netherlands, 304 982 neonates were screened between 2007 and 2012; and 92 were identified for further testing. Confirmatory testing revealed 6 (7%) with a profound biotinidase deficiency (<10% enzyme activity), 44 (48%) with a partial deficiency (10-30%) and 42 (46%) with normal activity (>30%). All six patients whose profound deficiency was confirmed had enzyme activities below 15% on neonatal screening. Mutation analysis was performed in 61 neonates: 5 'profound', 35 'partial' and 21 'normal'. All five...
Neonatal screening for biotinidase deficiency: Results of a 1-year pilot study
The Journal of Pediatrics, 1986
We screened 81,243 infants born in Virginia during the l-year period beginning Jan. 24, 1984, for deficiency of the enzyme biotinidase. A simple colorimetric screening procedure was used to detect the presence or absence of biotinidase activity on the same blood-soaked filter paper cards that are currently used in most neonatal metabolic screening programs. Two newborn infants with biotinidase deficiency were identified during the 12-month pilot study, in addition, two affected siblings of one of the newborn infants were detected through secondary family screening. On the basis of these results, the disorder appears to be at least as frequent as several others for which newborn screening is currently conducted. There were no known false-negative test results, and only 0.09% false-positive results that necessitated requests for second blood samples. False-positive test results can be readily identified by the use of a quantitative assay, which can also be used to confirm the diagnosis and to detect heterozygous family members in the case of true positives. On the basis of currently recognized criteria, biotinidase deficiency should be considered for inclusion among the metabolic disorders for which screening is performed in the neonatal period.
Neonatal screening for biotinidase deficiency in north eastern italy
European Journal of Pediatrics, 1988
We reviewed the outcome of newborn screening for biotinidase deficiency performed at our department since 1987. Among 1,097,894 newborns screened, 461 were recalled, and 18 were identified as affected by complete or partial biotinidase deficiency (incidence 1:61,000, false positive rate 0.04%). The common missense mutation Q456H was found in 80% of patients with profound biotinidase deficiency. Of them, one patient harbored the novel mutation M399I in compound heterozygosity (M399I/Q456H). The complex allele A171T/D444H in cis was found in two patients with profound biotinidase deficiency (in homozygosity and in compound heterozygosity with the R211H mutation, respectively) and in one patient with partial biotinidase deficiency (in compound heterozygosity with the protective allele D444H in trans). All detected patients were treated and followed up at our Center until present. Biotin therapy (10-20 mg/day) allowed the full prevention of clinical symptoms in all patients with no adverse effects. These excellent outcomes confirm that newborn screening for biotinidase deficiency is a very effective secondary prevention program.
Biotinidase deficiency: clinical and genetic studies of 38 Brazilian patients
BMC Medical Genetics, 2014
Background: Biotinidase deficiency (BD) is an inborn error of metabolism in which some genetic variants correlate with the level of enzyme activity. Biotinidase activity, however, may be artifactually low due to enzyme lability, premature birth, and jaundice; this hinders both phenotypic classification and the decision to implement therapy. This study sought to characterize the clinical and genetic profile of a sample of Brazilian patients exhibiting reduced biotinidase activity. Methods: This observational, multicenter study used a convenience sampling strategy, with sequencing of exons 2, 3, and 4 of the BTD gene. Results: The sample comprised 38 individuals with biochemical phenotypes defined a priori on the basis of biotinidase activity in serum/plasma (2 with profound deficiency, 9 with partial deficiency, 15 heterozygous, 1 borderline between partial deficiency and heterozygosity, 2 borderline between heterozygous and normal) or dried blood spot sample (n = 9, all with unspecified deficiency). Most patients were from Southern Brazil (n = 29/38) and were identified by neonatal screening (n = 33/38).
2021
Background/aim: Biotinidase deficiency (BTD) is characterized by broad genotypic variants and unsteady biotinidase activity. Increasing enzyme activity and maturation throughout childhood. This study aims to reveal the course of biotinidase activities in a long-term follow-up period and concordance with their genotypes .Participants/Methods: A total of 1,773 biotinidase enzyme (BT) activity measurements were performed in 711 newborns with variants in the BTD gene over a 4-year follow-up period. Biochemical phenotyping was classified into four groups based on the highest measured enzyme activity level during the follow-up: Profound(≤10%), Partial(10.1-30%), Heterozygous(30.1-66.5%), and Normal(>66.6%). Results: The number of participants with BTD in the biochemical phenotype groups assigned based on the first measurement was 59, 217, 314, and 121 in the profound, partial, heterozygous, and normal groups respectively. Based on the highest measurement value during follow-up, the num...
Molecular Genetics and Metabolism, 2014
Biotinidase deficiency (BD) is an autosomal recessive disorder resulting in the inability to recycle the vitamin biotin. Individuals with biotinidase deficiency can develop neurological and cutaneous symptoms if they are not treated with biotin. To date, more than 165 mutations in the biotinidase gene (BTD) have been reported. Essentially all the mutations result in enzymatic activities with less than 10% of mean normal serum enzyme activity (profound biotinidase deficiency) with the exception of the c.1330GNC (p.D444H) mutation, which results in an enzyme having 50% of mean normal serum activity and causes partial biotinidase deficiency (10-30% of mean normal serum biotinidase activity) if there is a mutation for profound biotinidase deficiency on the second allele. We now reported eight novel mutations in ten children identified by newborn screening in Michigan from 1988 to the end of 2012. Interestingly, one intronic mutation, c.310-15delT, results in an approximately twofold down-regulation of BTD mRNA expression by Quantitative real-time reverse-transcription PCR (qRT-PCR). This is the first report of an intronic mutation in the BTD gene with demonstration of its effect on enzymatic activity by altering mRNA expression. This study identified three other mutations likely to cause partial biotinidase deficiency. These results emphasize the importance of full gene sequencing of BTD on patients with biotinidase deficiency to better understand the genotype and phenotype correlation in the future.