Evidence for origin, by recurrent mutation, of the phenylalanine hydroxylase R408W mutation on two haplotypes in European and Quebec populations

The R408W mutation in the phenylalanine hydroxylase gene (PAH)of phenylketonurla patients occurs on haplotypes 2.3 and 1.8in Europeans. The mutation involves a CpG dinucleotide; nonetheless,a single recombination event might also explain the two haplotypeassociations. By analysis of an STR in the PAH gene 5' to the408 codon and of the VNTR system in the 3' UTR, we identifiedunique features of the haplotype 1.8 chromosome harbouring theR408W mutation which are not accounted for by recombination.We conclude that recurrent mutation is the origin of R408W ondifferent PAH haplotypes in Europeans.     

The mutation spectrum of hyperphenylalaninaemia in the Republic of Ireland: the population history of the Irish revisited

Phenylketonuric and hyperphenylalaninaemic patients in the population of the Republic of Ireland were screened for mutations at the human phenylalanine hydroxylase (PAH) locus. A composite data set for the island of Ireland was generated by merging the findings of this study with extant data for Northern Ireland. Analysis of this data on the basis of the four historic provinces (Munster, Leinster, Connacht and Ulster) revealed genetic diversity that is informative in terms of demographic forces that shaped the Irish population. R408W, the predominant Irish PAH mutation associated with haplotype 1.8, reached its highest relative frequency in the most westerly province, Connacht. This suggests that the gradient of R408W-1.8 observed across north-western Europe continues into Ireland and peaks in Connacht. Spatial autocorrelation analysis demonstrated that the gradient is consistent with a localised cline of R408W-1.8 likely to have been established by human migration. This and parallel allele frequency clines may represent the genetic traces of the Palaeolithic colonisation of Europe, a pattern not substantially altered in north-western Europe by subsequent Neolithic migrations. An analysis of mutant allele distributions in Ulster, Scotland and the rest of Ireland confirmed that Ulster has been a zone of considerable admixture between the Irish and Scottish populations, indicating a proportion of Scottish admixture in Ulster approaching 46%. Mutations primarily associated with Scandinavia accounted for 6.1% of mutations overall, illustrating the influence of Viking incursions on Irish population history.     

The molecular basis of phenylketonuria in Latvia

Characterization of the molecular basis of phenylketonuria (PKU) in Latvia has been accomplished through the analysis of 96 unrelated chromosomes from 50 Latvian PKU patients. Phenylalanine hydroxylase (PAH) gene mutations have been analyzed through a combined approach in which R158Q, R252W, R261Q, G272X, IVS10-11G>A and R408W mutations were first screened for by PCR or restriction generating PCR amplification of PAH gene exons 5, 7, 11 and 12 followed by digestion with the appropriate diagnostic enzyme. Subsequently 'broad range' denaturing gradient gel electrophoresis analysis of the 13 PAH gene exons has been used to study uncharacterized PKU chromosomes. A mutation detection rate of 98% was achieved. 12 different mutations were found, with the most frequent mutation, R408W, accounting for 76% of Latvian PKU alleles. Six mutations (R408W, E280K, R158Q, A104D, R261Q and P281L) represent 92% of PKU chromosomes. PAH VNTR and STR alleles have been also identified and minihaplotype associations with PKU mutations were also determined.     

The molecular basis of phenylketonuria in Lithuania

We report the spectrum of phenylalanine hydroxylase (PAH) gene mutations in patients with phenylketonuria (PKU) residing in Lithuania. A total of 184 independent chromosomes was investigated. R408W mutation was first analysed through restriction enzyme digestion of exon 12. The remaining uncharacterised PKU chromosomes were analysed by scanning the whole coding sequence of PAH gene by multiplex 'broad range' denaturing gradient gel electrophoresis. Mutations were identified by fluorescent automated sequencing or by restriction enzyme digestion analysis if an abnormal DGGE pattern was recognised. 21 different mutations were identified for 175 PKU chromosomes, with a mutation detection rate of 95%. The most common ones were R408W (73.5% chromosomes) and R158Q (7.0% chromosomes) whereas the remaining mutations appeared to be rare (relative frequencies 0.5%-2%). The high mutation detection rate obtained is an evidence of the efficiency of PAH genetic testing achieved in Lithuania. Moreover, the definition of the PKU mutation profile in the Lithuanian population will allow to perform a genotype-phenotype correlation study thus making feasible genotyped-based prediction of the biochemical phenotype in newborns with hyperphenylalaninemia. This may be useful for refining diagnosis and anticipating dietary requirements.     

Mutation spectrum of phenylketonuria in Iranian population

Identification of molecular basis of phenylketonuria (PKU) in Iran has been accomplished through the analysis of 248 unrelated chromosomes from 124 Iranian classic PKU subjects. Phenylalanine hydroxylase (PAH) gene mutations were analyzed through a combined approach in which p.S67P, p.R252W, p.R261Q, p.R261X, p.L333F, IVS10-11G>A, IVS11+1G>C, p.L364del, p.R408Q and p.R408W mutations were first screened by PCR of PAH gene exons 3, 7, 10, 11 and 12, followed by digestion with the appropriate digestion enzymes. Subsequently SSCP analysis for exons 2, 6, 7 and 11 of the PAH gene and finally, sequencing of 13 PAH gene exons have been used to study uncharacterized PKU chromosomes. 26 different mutations were found. The predominant mutation in this population sample was IVS10-11G>A, with a frequency of 24.6%. Nine mutations (IVS10-11G>A, p.R261Q, p.P281L, IVS11+1G>C, p.K363>NFS, p.R243X, IVS2+5G>C, p.R261X and p.R252W) represent almost 84% of all PKU chromosomes studied. IVS10-11G>A mutation is the major PKU-causing mutation throughout the Mediterranean region. The finding of the high prevalence of this mutation in Iranian population is consistent with the historical and geographical links between Iranian and Mediterranean populations.     

Genetic background of clinical homogeneity of phenylketonuria in Poland.

In order to elucidate the clinical homogeneity and severity of the hyperphenylalaninaemias in Poland, a total of 71 children with typical phenylketonuria (PKU) originating from western and northern Poland were screened for 13 mutations in the phenylalanine hydroxylase (PAH) gene. Eighty percent of all PKU alleles tested were found to carry an identified mutation. One mutation, namely the R408W mutation, accounted for more than 63% of mutant PAH alleles in Poland, the other 27% being accounted for by six mutations: IVS12nt1 (5%), IVSnt546 (5%), Y414C (4%), R252W (1.5%), R261Q (< 1%), and G272ter (< 1%). The predominance of the R408W mutation resulted in a high rate of homozygotes (35.2%) and compound heterozygotes for this mutation in children from western and northern Poland. The frequency and deleterious nature of this mutation probably accounts for the clinical homogeneity and severity of the hyperphenylalaninaemias in Poland. In addition, the high rate of the R408W mutation and its association with mutant haplotype 2 at the PAH locus in Poland give additional support to the Balto-Slavic origin of this mutant gene.     

The molecular basis of phenylalanine hydroxylase deficiency in Croatia

We present the results of a comprehensive analysis of mutations, polymorphisms and haplotypes in the phenylalanine hydroxylase (PAH) gene in 39 Croatian families with phenylketonuria (PKU). A total of 21 disease-causing mutations was identified on 78 out of 79 independent chromosomes. The commonest mutation, R408W on haplotype 2 was found with a relative frequency of 37 %. P281L accounted for 11 %, R261Q and E390G each for 9 % of mutant chromosomes. There were three novel mutations: L249P (c.746T>C) in exon 7, IVS8+2T>C (c.912T>C) in intron 8, and F402L (c.1206T>G) in exon 12 of the PAH gene. Two known PKU mutations were found in cis on the same chromosome in one family, highlighting the need to perform full mutation scanning in recessive disease genes for molecular diagnosis even if two known mutations have been identified in a patient. This is the first comprehensive report on PKU mutations in southeastern Europe, adding to the growing bulk of molecular data for population genetic investigations.     

In vitro and in vivo correlations for I65T and M1V mutations at the phenylalanine hydroxylase locus.

Mutations at the phenylalanine hydroxylase (PAH) locus are the major cause of hyperphenylalaninemia. We have previously described four mutations (M1V, IVS12nt1, R408W, and S349P) at the PAH locus in French Canadians with ancestry in eastern Quebec. Here we report (1) identification of another mutation, on a haplotype 9 chromosome, which converts codon 65 from isoleucine (ATT) to threonine (ACT), (2) expression analysis of the I65T mutation in COS cells demonstrating 75% loss of both immunoreactive protein and enzyme activity, and (3) expression analysis of the most prevalent PKU allele (M1V) in eastern Quebec, showing nondetectable levels of PAH protein and activity, a finding compatible with a mutation in the translation initiation codon. Homozygosity for M1V and codominant inheritance of I65T/R408W were both associated with classical phenylketonuria.     

Mutation spectrum and phenylalanine hydroxylase RFLP/VNTR background in 44 Romanian phenylketonuric alleles

The mutation spectrum and polymorphic haplotype background in 22 Romanian families have been analysed in this study using the restriction digestion of phenylalanine hydroxylase (PAH) regions specifically amplified or the DGGE/direct sequencing methods. Eleven PAH mutations specifically associated with six mutant haplotypes were detected. In spite of the relative heterogeneity of the molecular defects in the PAH gene, three mutations covered almost 70% of all alleles: R408W, 47.72%, 21/44; K363fsdelG 13.63%, 6/44; and P225T 6.81%, 3/44. Among these, R408W, the most frequent mutation in our population, represented 50% of all the phenylketonuric (PKU) chromosomes. Splice mutation IVS12nt1g→a affected two PAH alleles (4.54%); the remaining seven mutations were rare, each having an effect on just one chromosome (1/44), resulting in a relative frequency of 2.27%. A high frequency was observed in our PKU samples for the relatively uncommon mutations, K363fsdelG and P225T mutation, suggesting a possible founder effect at origin. Within the investigated panel, these mutations, both very rare among other Caucasians were exclusively linked to haplotype 5.8 and 1.7, respectively. These results provide a basis for the development of a routine molecular analysis of Romanian PKU families. Hum Mutat 12:314–319, 1998.© 1998 Wiley-Liss, Inc.     

Quantification of phenylalanine hydroxylase activity by isotope-dilution liquid chromatography-electrospray ionization tandem mass spectrometry

BackgroundResidual phenylalanine hydroxylase (PAH) activity is the key determinant for the phenotype severity in phenylketonuria (PKU) patients and correlates with the patient's genotype. Activity of in vitro expressed mutant PAH may predict the patient's phenotype and response to tetrahydrobiopterin (BH₄), the cofactor of PAH.MethodsA robust LC–ESI-MSMS PAH assay for the quantification of phenylalanine and tyrosine was developed. We measured PAH activity a) of the PAH mutations p.Y417C, p.I65T, p.R261Q, p.E280A, p.R158Q, p.R408W, and p.E390G expressed in eukaryotic COS-1 cells; b) in different cell lines (e.g. Huh-7, Hep3B); and c) in liver, brain, and kidney tissue from wild-type and PKU mice.ResultsThe PAH assay was linear for phenylalanine and tyrosine (r² ≥ 0.99), with a detection limit of 105 nmol/L for Phe and 398 nmol/L for Tyr. Intra-assay and inter-assay coefficients of variation were < 5.3% and < 6.2%, respectively, for the p.R158Q variant in lower tyrosine range. Recovery of tyrosine was 100%. Compared to the wild-type enzyme, the highest PAH activity at standard conditions (1 mmol/L L-Phe; 200 μmol/L BH₄) was found for the mutant p.Y417C (76%), followed by p.E390G (54%), p.R261Q (43%), p.I65T (33%), p.E280A (15%), p.R158Q (5%), and p.R408W (2%). A relative high PAH activity was found in kidney (33% of the liver activity), but none in brain.ConclusionsThis novel method is highly sensitive, specific, reproducible, and efficient, allowing the quantification of PAH activity in different cells or tissue extracts using minimum amounts of samples under standardized conditions.     

127例PKU患者PAH基因第12外显子点突变及其频率研究

目的　了解中国人苯丙酮尿症 ( phenylketonuria,PKU)患者的苯丙氨酸羟化酶( phenylalanine hydroxylase,PAH)基因第 12外显子点突变种类和频率。方法　应用单链构象多态性( single strand conformation polymorphism,SSCP)、变性梯度凝胶电泳 ( denaturing gradient gelelectrophoresis,DGGE)、DNA测序分析了 12 7例 PKU患者的 PAH基因第 12外显子点突变种类及频率。结果　 DNA测序分析显示 10例患者存在 R4 13P、S4 11X、R4 0 8W、R4 0 8Q 4种杂合突变 ,其突变频率分别为 2 .76 %、0 .39%、0 .39%、0 .39% ,S4 11X突变为中国人中首次报道。 SSCP分析仅发现 2例 R4 13P杂合突变 ,DGGE分析显示 10例出现 3种类型的异常电泳带型。R4 13P突变在南北方人之间、在经典型 PKU和高苯丙氨酸血症之间的分布差异无显著性。结论　 DGGE对 PAH基因第 12外显子点突变检出率明显高于 SSCP。 DGGE结合 DNA测序是明确 PAH基因第 12外显子点突变种类和频率较好的方法。 R4 13P突变在南北方人中分布无明显差异     

Haplotypes and mutations of the PAH locus in Egyptian families with PKU

A high degree of molecular heterogeneneity at the phenylalanine hydroxylase (PAH) locus was established by examining RFLP haplotypes and PAH mutations in the families of 13 Egyptians with phenylketenouria (PKU). Thirteen different haplotypes were unequivocally determined in these kindreds. Haplotypes 1.8, 3.9, 4.3, 7.8, 22.11, 27.6, and 52.8 were found segregating with normal chromosomes, whilst haplotypes 1.8, 5.9, 23.8, 32.8, the newly assigned 73.9, and two as yet incomplete but novel haplotypes were found segregating with the mutant chromosomes. There was no particular preference for a single haplotype among normal or mutant chromosomes. Nine different mutations were also identified among the 26 alleles. IVS 10nt11g (8/26), IVS 2nt5g-c (4/26), R261Q (3/26), R176X (2/26), Y206D (2/26), S231P (2/26), Y198fs [593-614del22bp]; (2/26), G46fs [136/137delG]; (1/26), and E178G (1/26). Six of these mutations (IVS 2nt5g-c, R176X, Y198fs, R261Q, S231P, and IVS 10nt11g) are common to other Mediterranean populations. Two mutations not previously reported in the Mediterranean basin were also observed (Y206D and G46fs). These intriguing preliminary findings confirm IVS 10nt11g as a major mutation among Mediterranean mutations and demonstrate the need for a more comprehensive study of Arab populations to confirm the uniqueness of the two novel mutations to the Egyptian population.     

Phenylketonuria mutations in Europe

Phenylketonuria (PKU) is heterogeneous. More than 400 different mutations in the phenylalanine hydroxylase (PAH) gene have been identified. In a systematic review of the molecular genetics of PKU in Europe we identified 29 mutations that may be regarded as prevalent in European populations. Comprehensive regional data for these mutations were collated from all available studies. The spectrum of mutations found in individual regions results from a combination of factors including founder effect, range expansion and migration, genetic drift, and probably heterozygote advantage. Common mutations include R408W on a haplotype 2 background in Eastern Europe, IVS10-11G>A in the Mediterranean, IVS12+1G>A in Denmark and England, Y414C in Scandinavia, I65T in Western Europe, and R408W on haplotype 1 in the British Isles. Molecular data from mild hyperphenylalaninemia (MHP) patients are available from a number of countries, but it is currently not possible to calculate relative allele frequencies. The available data on PAH mutations are useful for the understanding of both the clinical features and the population genetics of PAH deficiency in Europe.     

Molecular basis of phenylketonuria in Venezuela: Presence of two novel null mutations

This report describes the mutational spectrum and linked haplotypes of the phenylalanine hydroxylase gene in Venezuela. In this study, we have detected European mutations such as IVS10nt-11, R243Q, and R408W on the same haplotype background (6.7, 1.8, and 2.3, respectively) as in Europe. In this sample, we have found two novel mutations: S349L detected in two homozygous siblings on the background of haplotype 6.7, and a small deletion, P314fsdelC, that results in a frameshift and a premature stop codon detected on the background of haplotype 4.3. The definite demonstration that mutation S349L results in a nonfunctional protein was shown by expression analysis in prokaryotic and eukaryotic systems. This mutation results in an unstable phenylalanine hydroxylase (PAH) protein completely devoid of enzymatic activity well correlated with the severe form of the disease exhibited by the homozygous patients. Hum Mutat 11:354–359, 1998. © 1998 Wiley-Liss, Inc.     

Two classes of CD1 genes

Herein, we report the DNA sequence of two human CD1 genes, R2 and R3, distinct from those encoding the CD1a, -b and -c antigens. Both genes appear to have an exon/intron structure analogous to the previously analyzed CD1 genes and to be functional on the basis of their sequence. Analysis of the variability patterns, potential intramolecular interactions and predicted secondary structure profile on an alignment of all known CD1 alpha chains suggest some shared structural features with major histocompatibility complex class I molecules in the alpha 1 domains but substantial differences in the alpha 2 domains. Sequence comparison shows that, while R2 is most related to CD1a, -b and -c, albeit to a somewhat lower degree than the latter are to themselves, R3 is more homologous to mouse than to human CD1, suggesting the existence of two functional classes within the CD1 gene family. We propose to retain the non-committal R2 and R3 names until the putative antigens have been identified and their tissue distribution has been established.     

Mutation spectrum in Taiwanese patients with phenylalanine hydroxylase deficiency and a founder effect for the R241C mutation

The spectrum of phenylalanine hydroxylase (PAH) gene mutations was determined in 25 families of hyperphenylalaninemia identified by a neonatal screening program in Taiwan. The coding sequence and exon-flanking intron sequences of PAH gene were amplified and sequenced. Mutations were identified in forty-five of the 50 chromosomes. R241C was the most common mutation (36% of the chromosomes), followed by R408Q (14% of the chromosomes). The remaining mutations were rare and seven mutations have not been reported before: p.F233L (c.697T>C), p.R252Q (c.756G>A), p.E286K (c.856G>A), p.G312V (c.935G>T), p.P314T (c.940C>A), p.I95del (c.284_286delTCA), and p.T81fsX6 (c.241_256del). Both p.R241C and p.R408Q are classified as mild phenylketonuria (PKU) or mild hyperphenylalaninemia (MHP) mutation, which may explain the fact that classical PKU is very rare in Taiwan (n=4, or one in 413,035). This strong founder effect for the p.R241C mutation has been described neither in the Caucasian populations, nor in other reports from Chinese. Since most of the populations in Taiwan are derived from Southeastern China, the spectrum of PAH gene mutations in Southeastern China should be different from other Chinese populations. This report not only disclose a specific spectrum of PAH gene mutation in Taiwan, but may also give clues to the movement of populations in Mainland China.     

Mutation and haplotype analysis of phenylalanine hydroxylase alleles in classical PKU patients from the Czech Republic: identification of four novel mutations.

Mutations, haplotypes, and other polymorphic markers in the phenylalanine hydroxylase (PAH) gene were analysed in 133 unrelated Czech families with classical phenylketonuria (PKU). Almost 95% of all mutant alleles were identified, using a combination of PCR and restriction analysis, denaturing gradient gel electrophoresis (DGGE), and sequencing. A total of 30 different mutations, 16 various RFLP/VNTR haplotypes, and four polymorphisms were detected on 266 independent mutant chromosomes. The most common molecular defect observed in the Czech population was R408W (54.9%). Each of the other 29 mutations was present in no more than 5% of alleles and 13 mutations were found in only one PKU allele each (0.4%). Four novel mutations G239A, R270fsdel5bp, A342P, and IVS11nt-8g-->a were identified. In 14 (5.1%) alleles, linked to four different RFLP/VNTR haplotypes, the sequence alterations still remain unknown. Our results confirm that PKU is a heterogeneous disorder at the molecular level. Since there is evidence for the gene flow coming from northern, western, and southern parts of Europe into our Slavic population, it is clear that human migration has been the most important factor in the spread of PKU alleles in Europe.     

START, a double blind, placebo-controlled pharmacogenetic test of responsiveness to sapropterin dihydrochloride in phenylketonuria patients

Sapropterin dihydrochloride, a synthetic tetrahydrobiopterin (BH4), works as a chaperone of phenylalanine hydroxylase (PAH) in phenylketonuria (PKU) to facilitate and stabilize folding of PAH into its most active conformation. No standard pharmacogenetic tests exist to identify responsive genotypes. Previous studies have failed to identify genotypes that consistently predict response; they are weakened by varied: 1) doses; 2) response definitions; 3) duration; 4) phenylalanine (PHE) test times during different protein catabolic states; 5) control of dietary PHE. START (sapropterin therapy actual response test) protocol is a double blind, placebo-controlled, 4-week clinical test that obviates the confounders aforementioned. START results were evaluated for response-genotype correlates and trends in molecular characteristics. RESULTS: Seventy-four patients completed START. Thirty-six patients (48.6%) responded, 55 patients' genotypes are known, 38 unique genotypes are present. Alleles consistently associated with response include Y414C (8/8 patients, 6 genotypes) and I65T (9/9 patients, 6 genotypes). The p.R408W mutation, in which substitution of straight chain arginine with bulky aromatic amine, tryptophan, at the crux of a strategic hinge site activating folding of PAH, amino acid sequence 408, was strongly associated with non-response (21/29 patients non-responsive, 12/17 genotypes non-responsive). Genotypes containing at least one allele with ≥25% residual activity compared to wild type, were strongly associated with response. CONCLUSIONS: The START protocol provides a rigorous pharmacogenetic test to identify sapropterin responsiveness and genotypes associated with responsiveness and non-responsiveness. Some genotypes were found to be predictive of responsiveness or non-responsiveness, and responsiveness was associated with specific alleles. The START protocol provides a reliable test for sapropterin responsiveness and will continue to improve understanding of how PKU mutations impact PAH protein-folding dynamics and enhance understanding of PKU disease and its management.     

CpG methylation accounts for a recurrent mutation (c.1222C>T) in the human PAH gene

The human PAH gene (GenBank: U49897.1 (cDNA), AF404777 (gDNA)) harbors alleles that either cause or are associated with hyperphenylalaninemia and phenylketonuria (http://www.pahdb.mcgill.ca). Mutation analysis has identified approximately 500 alleles of which approximately 30 produce polymorphic core haplotypes. The c.1222C>T allele (p.R408W) is the most prevalent and widely encountered PKU-causing allele. Because it occurs on multiple locus-specific polymorphic haplotypes, it is probably not identical by descent in different populations. This mutation involves a CpG dinucleotide in a so-called "hypermutable" codon suggesting that c.1222C>T could be a recurrent allele following spontaneous methylation-mediated deamination of 5 mC. This concept is widely assumed and accepted but the 5mC status of hypermutable codons has seldom been confirmed. We show that the PAH c.1222C nucleotide is indeed methylated (c.1222 mC) in somatic genomes (leukocyte and brain) of H. sapiens. Examination of a representative region in exon 12 (and also in exon 7) in the PAH gene shows that 5 mC is restricted to cytosines in CpG dinucleotides in the hypermutable codons. The methylation pattern seen in human PAH exon 12 was also observed in the corresponding codon in three nonhuman primates. The finding offers at least one explanation for the high relative frequency of the c.1222C>T (p.R408W) allele in the human population.     

Molecular characterization of phenylketonuria in South Brazil

Phenylketonuria (PKU) is an autosomal recessive disorder due to phenylalanine hydroxylase (PAH) deficiency. The PAH gene, located at 12q22-q24.1, includes about 90kb and contains 13 exons. To date, more than 420 different alterations have been identified in the PAH gene. To determine the nature and frequency of PAH mutations in PKU patients from South Brazil, mutation analysis was performed on genomic DNA from 23 unrelated PKU patients. The 13 exons and flanking regions of the PAH gene were amplified by PCR and the amplicons were analyzed by single strand conformation polymorphism (SSCP). Amplicons that showed abnormal migration patterns were analyzed by restriction endonuclease digestion and/or sequencing. Twenty-two previously reported mutations were identified including R261X, R408W, IVS2nt5g-->c, R261Q, and V388M. Polymorphisms were observed in 48.8% of the PKU patients, the most frequent being IVS2nt19t-->c, V245V, and IVS12nt-35c-->t. In addition, two novel sequence variants were identified: 1378g-->t in the 3(')-untranslated region in exon 13 which may be disease-causing and an intron 12 polymorphism, IVS12nt-15t-->c. The mutation spectrum in the patients from Southern Brazil differed from that observed in patients from other Latin American countries and further defined the molecular heterogeneity of this disease.