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Query: UNIPROT:P06889 (
Mol
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630,302
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Tetrahydrobiopterin (BH4) deficiency among newborns with
hyperphenylalaninemia
must be rapidly diagnosed and distinguished from classical phenylketonuria (PKU) to initiate immediately specific treatment and to prevent irreversible neurological damage. The characteristic pattern of urinary pterins makes it possible to differentiate between PKU and BH4 deficiencies, and to identify different variants of BH4 deficiency. However, collection, storage, and shipment of urine samples for pterin analysis is cumbersome. A method for the measurement of different pterins (neopterin, biopterin, and pterin) in blood collected on filter paper was developed as a potential alternative to the screening for BH4 deficiencies in urine and for the monitoring of BH4 pharmacokinetics. Pterins pattern in blood spots was comparable with those in plasma and urine. We thus established reference values for pterins in blood spots in patients with
hyperphenylalaninemia
and identified new patients with GTP cyclohydrolase I deficiency, 6-pyruvoyl-tetrahydropterin synthase deficiency, and dihydropteridine reductase deficiency using dried blood spots on filter paper.
Mol
Genet Metab 2005 Dec
PMID:Screening for tetrahydrobiopterin deficiencies using dried blood spots on filter paper. 1627 37
4a-Hydroxy-tetrahydrobiopterin dehydratase/DCoH is a bifunctional protein. In the cytoplasm it is an enzyme required for the regeneration of tetrahydrobiopterin, an essential cofactor for phenylalanine hydroxylase. In the nucleus it functions as a transcriptional coactivator by forming a 2:2 heterotetramer with the hepatic nuclear factor HNF1alpha (HNF1). Patients with a deficiency of dehydratase activity have elevated levels of phenylalanine, and accumulate 7-pterins due to degradation of its substrate 4a-hydroxy-tetrahydrobiopterin. Curiously, the
hyperphenylalaninemia
is transient, and no defects in the transcriptional coactivator function have been reported. Recently, a human isozyme, dehydratase/DCoHalpha, has been detected which shares 60% identity with dehydratase/DCoH. This investigation was undertaken to ascertain if dehydratase/DCoHalpha has the pre-requisite properties to compensate in individuals lacking an active form of DCoH. DCoHalpha demonstrated the ability to quantitatively alter HNF1-dependent DNA-binding in vitro whereas DCoH was ineffective in vitro. This characteristic, due to the presence of dimeric DCoHalpha, demonstrates that DCoHalpha does not require any additional mammalian regulation process to alter DNA binding and therefore, may be more effective than DCoH at low concentrations. The dehydratase activity of each isoform was measured by a direct spectrophotometric assay. Km and Vmax for DCoHalpha were both 2-3 times higher than for DCoH, thus leaving the catalytic efficiency (Vmax/Km) the same for both enzymes. In conclusion, the properties of dehydratase/DCoHalpha are consistent with the hypothesis that the activity of this isozyme could account for the relatively mild symptoms reported for patients with a defect in dehydratase/DCoH.
Mol
Genet Metab 2006 May
PMID:Can the DCoHalpha isozyme compensate in patients with 4a-hydroxy-tetrahydrobiopterin dehydratase/DCoH deficiency? 1642 49
Deficient activity of the Dihydropteridine Reductase enzyme (DHPR; EC 1.5.1.34; OMIM 261630) is due to mutations in the Quinoid Dihydropteridine Reductase gene on 4p15.3 (QDPR; RefSeq NM_000320). It results in defective recycling of tetrahydrobiopterin (BH(4)) and homozygotes have a rare form of atypical
Hyperphenylalaninaemia
and Phenylketonuria (aPKU). The heterozygote frequency in the Maltese population is high at 3.3%. The more recently described and rarer type of BH(4) deficiency due to Sepiapterin Reductase enzyme deficiency (SR; EC 1.1.1.153; OMIM 182125), which presents as an atypical form of Dopa Responsive Dystonia (DRD) [L. Bonafe, B. Thony, J.M. Penzien, B. Czarnecki, N. Blau, Mutations in the sepiapterin reductase gene cause a novel tetrahydrobiopterin-dependent monoamine-neurotransmitter deficiency without
hyperphenylalaninemia
, Am. J. Hum. Genet. 69 (2001) 269-277; B.R.G. Neville, R. Parascandalo, S. Attard Montalto, R. Farrugia, A.E. Felice, A congenital dopa responsive motor disorder: a Maltese variant due to sepiapterin reductase deficiency, Brain 128 (Pt10) (2005) 2291-2296.] has also been identified at high frequency (4.6%) in this population. Two mutations, the c.68G>A in QDPR (p.G23D), and the new SPR, IVS2-2A>G mutation at the splice site consensus sequence in intron 2 of the Sepiapterin Reductase gene (SPR; RefSeq NM_003124) on 2p14-p12, were found to be the sole causative mutations in all the patients with DHPR deficiency and SR deficiency studied. All parents were heterozygotes for the corresponding mutation and showed no clinical symptoms. Three polymorphisms, c.96C>T (p.A32A), c. 345G>A (p.S115S) and c. 396G>A (p.L132L), have also been identified in the QDPR gene, defining four wild-type frameworks, useful in molecular epidemiology studies. The c. 68G>A mutation in QDPR was found only on framework I, suggesting a founder effect. In contrast no additional sequence diversity was found in the SPR gene whether in wild-type or mutant alleles which is also consistent with a founder effect.
Mol
Genet Metab 2007 Mar
PMID:Molecular genetics of tetrahydrobiopterin (BH4) deficiency in the Maltese population. 1718 38
We have previously reported a transgene delivery system based on phiBT1 bacteriophage integrase that results in targeted insertion of transgenes into mammalian genomes, and its use in the delivery of murine phenylalanine hydroxylase (PAH) complementary DNA (cDNA) into the hepatocytes of male phenylketonuria (PKU) mice, leading to a complete and permanent correction of their hyperphenylalaninemic phenotype. In this study, we report only partial phenotypic correction in female PKU mice, even though hepatic PAH activities in both sexes after gene treatment were similar. Daily injections of tetrahydrobiopterin (BH4), an essential co-factor for phenylalanine hydroxylation, in the gene-treated females led to complete correction of their PKU phenotype. After gonadectomy, serum phenylalanine levels in the gene-treated females were reduced to normal, whereas those in the gene-treated males remained unchanged. The sterile gene-treated PKU mice were subjected to daily sex hormone injections. Whereas the estradiol-treated sterile males developed
hyperphenylalaninemia
, the dihydrotestosterone-treated sterile females remained normal phenylalaninemic. The results indicate that it is estrogen that suppresses the steady-state levels of BH4 in mouse hepatocytes that became limiting, which is the underlying mechanism for the observed sexual dimorphism in PKU mice after PAH gene treatment. Livers of the PAH gene-corrected PKU mice also appeared normal and without apparent pathologies.
Mol
Ther 2007 Jun
PMID:Metabolic basis of sexual dimorphism in PKU mice after genome-targeted PAH gene therapy. 2773 55
Some individuals with phenylketonuria (PKU) respond to pharmacologic treatment with tetrahydrobiopterin (BH(4)) by a reduction in the blood phenylalanine concentration. This can result in increased dietary tolerance for phenylalanine or, in rare instances, replacement of the phenylalanine-restricted diet. BH(4) is now available as sapropterin dihydrochloride under the name KUVAN, a formulation of natural BH(4). This commentary contains recommendations for determining responsiveness to sapropterin dihydrochloride. The recommendations include challenging with an initial daily dose of 20mg/kg and blood phenylalanine determinations pre-challenge and on days 1, 7, and 14 with the option of an additional continuation to day 28 if required to clarify whether a response has occurred. An algorithm depicting this recommendation for the challenge is included. The most widely accepted standard of response is > or = 30% reduction in the blood phenylalanine concentration, but a lower degree of response might also be considered clinically meaningful in some individual circumstances. Issues include the potential treatment of those with mild
hyperphenylalaninemia
who are not on diet, challenging neonates who have
hyperphenylalaninemia
identified by newborn screening, and the use of sapropterin dihydrochloride in treatment of maternal PKU pregnancies. These recommendations are intended to provide a basis for the use of sapropterin dihydrochloride in the treatment of PKU but may be altered after close observation of treated patients and carefully performed research.
Mol
Genet Metab 2007 Dec
PMID:Recommendations for evaluation of responsiveness to tetrahydrobiopterin (BH(4)) in phenylketonuria and its use in treatment. 1803 98
We describe a unique presentation of autosomal recessive (AR) GTP cyclohydrolase I (GTPCH) deficiency, with severe CNS involvement but without
hyperphenylalaninemia
. A male infant presented with progressive spasticity, dystonia and oculogyric episodes. Blood phenylalanine levels were persistently normal: whereas an oral phenylalanine loading test revealed impaired phenylalanine clearance. CSF neopterin and tetrahydrobiopterin (BH(4)) were low, homovanillic acid marginally low and 5-hydroxyindoleacetic acid normal. Fibroblasts showed decreased GTPCH enzyme activity. A homozygous novel mutation of GCH1, p.V206A, was identified. On treatment (BH(4), L-Dopa/Carbidopa and 5-hydroxytryptophan), motor development improved. Mutational analysis provided neonatal diagnosis of a younger brother who, after 18 months on treatment, shows normal development. AR GTPCH I deficiency can present without
hyperphenylalaninemia
and with normal or subtle CSF neurotransmitter profiles. Testing for GTPCH deficiency should be considered for patients with unexplained neurological symptoms and extrapyramidal movement disorder.
Mol
Genet Metab 2008 May
PMID:Autosomal recessive GTP cyclohydrolase I deficiency without hyperphenylalaninemia: evidence of a phenotypic continuum between dominant and recessive forms. 1827 79
Specific mutations in the gene encoding phenylalanine hydroxylase (PAH), located on chromosome 12q22-24.1, are linked to tetrahydrobiopterin (BH4; sapropterin)-responsive phenylketonuria (PKU). Diagnosis is usually done through the newborn screening for PKU, followed by a BH4 loading test. So far, more than 60 mutant alleles, presenting with a substantial residual PAH activity (average approximately 47%), were identified in more than 500 patients worldwide. We investigated the predictive value of BH4-responsive PAH mutations in Croatian population. From a group of 127 PKU patients, 62 were selected (based on the genotype) as potentially BH4-responsive and 39 loaded with BH4 (20 mg/kg). The overall frequency of BH4-responsiveness (>30% blood phenylalanine reduction within 24 h) was 36% (14 out of 39 patients with 23 different genotypes), significantly less than expected. The best responders were patients with mild
hyperphenylalaninemia
(4/4; 100%), followed by mild PKU (8/9; 89%), and classical PKU (2/26; 8%). The most common BH(4)-responsive genotypes were p.E390G/p.R408W and p.P281L/p.E390G. These genotypes correspond for approximately >30% residual PAH activity. The p.E390G mutation was 100% associated with BH4-responsiveness, regardless of the second allele (p.R408W, p.P281L, p.F55Lfs, p.L249P). With regard to the predicted relative PAH activity of recombinantly expressed mutant alleles, there was a significant (p<0.002) difference between BH4-responders and non-responders. In a general Croatian PKU population, disease-causing mutations were identified on 226 alleles (99%). There were 35 different mutations: 21 missense, 8 splice site, 3 nonsense, 2 single nucleotide deletions, and 1 in-frame deletion. Four mutations are reported for the first time: p.E76D, p.L333P, p.G346E, and IVS8-2A>G. Five mutations accounted for over two-thirds of investigated alleles: p.L48S, p.R261Q, p.P281L, p.E390G, and p.R408W. Thus, the Croatian PKU population seems to be more homogenous than some other Mediterranean or Central European populations. This study reveals the importance of a full genotype for the prediction of BH4-responsiveness. In contrast to previous assumption and with exception of the p.E390G mutation, single allele mutations are not reliable for the selection of potential PKU candidates for pharmacological therapy with BH4.
Mol
Genet Metab 2009 Jul
PMID:Genotype-predicted tetrahydrobiopterin (BH4)-responsiveness and molecular genetics in Croatian patients with phenylalanine hydroxylase (PAH) deficiency. 1939 57
A consistent finding of many studies describing the spectrum of mutant phenylalanine hydroxylase (PAH) alleles underlying
hyperphenylalaninemia
is the impossibility of achieving a 100% mutation ascertainment rate using conventional gene-scanning methods. These methods include denaturing gradient gel electrophoresis (DGGE), denaturing high performance liquid chromatography (DHPLC), and direct sequencing. In recent years, it has been shown that a significant proportion of undetermined alleles consist of large deletions overlapping one or more exons. These deletions have been difficult to detect in compound heterozygotes using gene-scanning methods due to a masking effect of the non-deleted allele. To date, no systematic search has been carried out for such exon deletions in Italian patients with phenylketonuria or mild
hyperphenylalaninemia
. We used multiplex ligation-dependent probe amplification (MLPA), comparative multiplex dosage analysis (CMDA), and real-time PCR to search for both large deletions and duplications of the phenylalanine hydroxylase gene in Italian
hyperphenylalaninemia
patients. Four deletions removing different phenylalanine hydroxylase (PAH) gene exons were identified in 12 patients. Two of these deletions involving exons 4-5-6-7-8 (systematic name c.353-?_912+?del) and exon 6 (systematic name c.510-?_706+?del) have not been reported previously. In this study, we show that exon deletion of the PAH gene accounts for 1.7% of all mutant PAH alleles in Italian hyperphenylalaninemics.
Exp
Mol
Med 2010 Feb 28
PMID:Exon deletions of the phenylalanine hydroxylase gene in Italian hyperphenylalaninemics. 1994 81
Phenylalanine hydroxylase deficiency is a trait inherited in an autosomal recessive pattern; the associated phenotype varies considerably. This variation is mainly due to the considerable allelic heterogeneity in the phenylalanine hydroxylase enzyme locus. We examined the genotype-phenotype correlation in 54 phenylketonuria (PKU) patients from Minas Gerais, Brazil. Two systems were used. The first was a phenotype prediction system based on arbitrary values (AV) attributed to each mutation and the second was a correlation analysis. An AV was assigned to each mutation: AV = 1 for classical PKU mutation; AV = 2 for moderate PKU mutation; AV = 4 for mild PKU mutation, and AV = 8 for non-PKU
hyperphenylalaninemia
mutation. The observed phenotype for AV analysis was the clinical diagnosis established by the overloading phenylalanine test. Among the 51 PKU patients that we analyzed based on this trait, in 51% the predicted phenotype did not match the observed phenotype; the highest degree of concordance was found in patients with null/null genotypes. The genotype was observed to be a good predictor of the clinical course of the patients and significant correlations were found between phenylalanine values at first interview and predicted residual activity, genotype and arbitrary value sum.
Genet
Mol
Res 2010 Jan 05
PMID:Variations in genotype-phenotype correlations in phenylketonuria patients. 2008 65
Sapropterin dihydrochloride, a synthetic, stable form of the tetrahydrobiopterin cofactor of phenylalanine hydroxylase, has been shown to reduce plasma phenylalanine (Phe) levels in a significant portion of patients with phenylketonuria (PKU). When we undertook introducing this medication to our PKU clinic population, the challenges of recalling and reconnecting with a variably treated and variably compliant patient population became apparent. We offered a trial of sapropterin to all of our clinic patients with PKU. In order to determine responsiveness, we used a two tier dose escalation protocol. After diet records were taken, and baseline plasma Phe levels were established, a 7-day trial of sapropterin at 10mg/kg/day was started. At day 8, plasma phenylalanine levels were measured. Patients were considered to be responders if they had a 30% reduction in plasma Phe. If they did not respond, the dose of sapropterin was increased to 20 mg/kg/day, and levels were rechecked again in 8 days. Patients who were not responders at this time continued sapropterin for a total of 30 days and had Phe levels checked one last time. Patients who were responders and who were on a Phe-restricted diet underwent gradual liberalization of their diet to the maximum tolerated natural protein intake while still maintaining plasma levels in the acceptable treatment range of 120-360 micromol/L. In our population, 36/39 patients with
hyperphenylalaninemia
(
HPA
) who were offered a trial of sapropterin elected to start sapropterin. Five of 36 patients were non-adherent with diet records and/or medication doses and we were unable to determine if they were responders. We were unable to categorize 2 of 31 of the patients who completed the trial as responders due to dietary issues, though they were probably responders. Of the 29 patients who completed the sapropterin trial and we could categorize, 18/29 (62%) were determined to be responders. Patients were classified based on their off-diet diagnostic plasma phenylalanine levels as classical PKU (>1200 micromol/L) and variant PKU (>400 and <1200 micromol/L). The group with variant PKU had a 100% response rate, and patients with classical PKU had a 27% response rate. For the patients in the responder group who were on Phe-restricted diet, we were able to liberalize most diets, in two cases to unrestricted protein intake. We also had unexpected beneficial findings in our clinic experience, including positive behavioral improvements in an adult severely affected by untreated PKU. Even in patients who were not considered to be responders, the introduction of sapropterin provided a tool to reconnect with patients and re-introduce beneficial dietary measures.
Mol
Genet Metab 2010 Jul
PMID:Introduction of sapropterin dihydrochloride as standard of care in patients with phenylketonuria. 2041 36
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