Mutation at the phenylalanine hydroxylase gene (PAH) and its use to document population genetic variation: the Quebec experience.

We describe variation at the PAH locus in the population of Quebec. We successfully analyzed 135 of 141 chromosomes from phenylketonuria (PKU) probands (95.7% of the sample), and eight additional chromosomes from a small number of probands with non-PKU hyperphenylalaninemia (HPA). The full set of chromosomes harboured 45 different PAH mutations: i) seven polymorphisms (IVS2nt19, IVS3nt-22, IVS6nt-55, Q232Q, V245V, L385L, Y414Y); ii) four mutations causing non-PKU HPA (T92I, E390G, R408Q, D415N); iii) 34 mutations causing PKU. Only six mutations (M1V, R261Q, F299C, S349P, R408W and IVS12nt1) occurred in the whole province at relative frequencies > 5%: most are rare and probably identical by descent. By studying associations of mutations with polymorphic haplotype alleles, we found examples of mutations on different haplotypes that were identical by state, but not by descent because they were recurrent mutations (E280K and R408W); and examples of mutations identical both by state and by descent because of intragenic recombination (S67P, G218V, V245A and IVS12nt1). Ten mutations were first described in Quebec and five are still unique there; three of these 'Quebec' mutations are reported here for the first time (c.125A-->T (K42I); [c.470G-->A; c.471A--C] (R157N); c.707nt-55 (IVS6nt-55). The PAH mutations stratify by geographic region and population, their distributions validating hypotheses about European range expansion to North America during three separate phases of immigration and demographic expansion in the Quebec region over the past four centuries. The PAH homozygosity value (j) is 0.06 for the total Quebec sample (0.5-0.08 by regions), and the corresponding homoallelic fraction of mutant PAH genotypes is 24%. These findings are a documentation of genetic diversity in the Quebec population.

PAH Mutation Analysis Consortium Database: 1997. Prototype for relational locus-specific mutation databases.

PAHdb (http://www.mcgill.ca/pahdb ) is a curated relational database (Fig. 1) of nucleotide variation in the human PAH cDNA (GenBank U49897). Among 328 different mutations by state (Fig. 2) the majority are rare mutations causing hyperphenylalaninemia (HPA) (OMIM 261600), the remainder are polymorphic variants without apparent effect on phenotype. PAHdb modules contain mutations, polymorphic haplotypes, genotype-phenotype correlations, expression analysis, sources of information and the reference sequence; the database also contains pages of clinical information and data on three ENU mouse orthologues of human HPA. Only six different mutations account for 60% of human HPA chromosomes worldwide, mutations stratify by population and geographic region, and the Oriental and Caucasian mutation sets are different (Fig. 3). PAHdb provides curated electronic publication and one third of its incoming reports are direct submissions. Each different mutation receives a systematic (nucleotide) name and a unique identifier (UID). Data are accessed both by a Newsletter and a search engine on the website; integrity of the database is ensured by keeping the curated template offline. There have been >6500 online interrogations of the website.

Human phenylalanine hydroxylase mutations and hyperphenylalaninemia phenotypes: a metanalysis of genotype-phenotype correlations.

We analyzed correlations between mutant genotypes at the human phenylalanine hydroxylase locus (gene symbol PAH) and the corresponding hyperphenylalaninemia (HPA) phenotypes (notably, phenylketonuria [OMIM 261600]). We used reports, both published and in the PAH Mutation Analysis Consortium Database, on 365 patients harboring 73 different PAH mutations in 161 different genotypes. HPA phenotypes were classified as phenylketonuria (PKU), variant PKU, and non-PKU HPA. By analysis both of homoallelic mutant genotypes and of "functionally hemizygous" heteroallelic genotypes, we characterized the phenotypic effect of 48 of the 73 different, largely missense mutations. Among those with consistent in vivo expression, 24 caused PKU, 3 caused variant PKU, and 10 caused non-PKU HPA. However, 11 mutations were inconsistent in their effect: 9 appeared in two different phenotype classes, and 2 (I65T and Y414C) appeared in all three classes. Seven mutations were inconsistent in phenotypic effect when in vitro (unit-protein) expression was compared with the corresponding in vivo phenotype (an emergent property). We conclude that the majority of PAH mutations confer a consistent phenotype and that this is concordant with their effects, when known, predicted from in vitro expression analysis. However, significant inconsistencies, both between in vitro and in vivo phenotypes and between different individuals with similar PAH genotypes, reveal that the HPA-phenotype is more complex than that predicted by Mendelian inheritance of alleles at the PAH locus.

Prediction of multiple hypermutable codons in the human PAH gene: codon 280 contains recurrent mutations in Quebec and other populations.

The predicted mutability profile (MUTPRED) of the phenylalanine hydroxylase (PAH) gene shows that the 48 CpG sites (template and atemplate strands) are either empty of known mutations (7 sites), harbour "PKU" alleles involving CpG doublets (16 sites), or contain mutations that do not involve a C-->T or G-->A substitution in the doublet. These hypermutable sites harbour 32 different mutations in association with at least 66 different haplotypes and hyperphenylalaninemia. The E280K mutation in exon 7 of the PAH gene is a cause of phenylketonuria. It occurs on four different haplotypes in Europeans and on haplotypes 1 and 2 in Quebec. Whereas a single recombination event could explain the two haplotype associations in Quebec, the mutation does involve a CpG dinucleotide. By analyzing multiallelic markers 5' (STR) and 3' (VNTR) to the E280K allele on 12 mutant and 30 normal chromosomes, we conclude that recurrent mutation is the likely origin of E280K in Quebec. The PAH mutation database shows that the allele accounts for 1.5% of PKU chromosomes worldwide.

The PAH mutation analysis consortium database: update 1996.

A website (http://www.mcgill.ca/pahdb ) is maintained by the curators for a Consortium (88 investigators, 28 countries) and all other users; it serves a relational database for human locus-specific genetic variation in a defined DNA sequence (GenBank U49897); (100 kb on human chromosome 12q24.1, gene symbol PAH). The intragenic nucleotide variation is both rare (Q< 0.01), extensive (>320 different mutations) and phenotype modifying, causing hyperphenylalaninemia by impairing phenylalanine hydroxylase function (see OMIM 261600), as well as polymorphic and neutral, the latter providing informative locus-specific haplotypes (>1200 different mutation/haplotype associations). The PAH database contains both offline core components (mutations, population associations and data source information) and several accessory online components: (i) relative frequencies of mutations by populations/regions (expanding file); (ii) data on genotype- phenotype correlations both in vitro and in vivo (new file); (iii) polymorphic haplotype structures (new file); (iv) intron sequence data (new file for design of primers); (v) description of mouse homologues (new file for mutations and phenotypes); (vi) the predicted PAH gene mutability profile (improved graphic); (vii) a clinical field for patient use (new interface with database). The website home page has been revised and a counter is recording >15 visits per day. Linkages to other mutation databases and an alliance of mutation database curators (new) are expanding. The primary 'electronic publication' reports now vastly exceed print reports. PAHdb serves as a prototype for obtaining, storing and distributing records of human genetic variation.

The phenylalanine hydroxylase locus: a marker for the history of phenylketonuria and human genetic diversity. PAH Mutation Analysis Consortium.

Disease-producing allelic variation describes one aspect of human genetic diversity. Phenylketonuria, the major type of hyperphenylalaninaemia and formerly a functional genetic lethal, has a 2% carrier frequency in temperate-zone populations. Newborn screening for hyperphenylalaninaemia (incidence of 1 in 10000) has made it one of the most widely ascertained human Mendelian traits; 99% of hyperphenylalaninaemia mutations map to the PAH (phenylalanine hydroxylase) gene on 12q24.1, and most cause phenylketonuria. The gene is well characterized. Analysis of 3986 mutant chromosomes by 81 investigators in 26 countries has identified 243 different mutations in 788 different associations (with polymorphic intragenic haplotypes [seven diallelic sites, one short tandem repeat, one variable number of tandem repeats], populations and regions). These data are compiled on a database accessible on the World-Wide Web or as a stand-alone software package. A few phenylketonuria alleles occur at high relative frequencies in particular populations on one or only a few haplotypes, suggesting positive selection in the past. Additional mechanisms (founder effect, drift and recurrent mutation) can explain frequencies and distributions of particular alleles. Allele stratification in Europeans and Orientals implies that mechanism(s) accounting for distribution and high frequencies of PAH alleles were acting before and during demic expansion in Europe and after the European and Oriental radiations.

PAH Mutation Analysis Consortium Database: a database for disease-producing and other allelic variation at the human PAH locus.

The PAH Mutation Analysis Consortium (81 investigators, 26 countries) is engaged in mutation detection at the human PAH locus. Ascertainment of probands occurs largely through newborn screening for hyperphenylalaninemia. A relational database records allelic variation (disease-producing and polymorphic) at the locus. Information is distributed by Newsletter, diskette (WINPAHDB software stand-alone executable on IBM compatible hardware), and at a 'real' site on the Worldwide Web (http://www.mcgill.ca/pahdb). The database presently records (Sept. 27, 1995) 248 alleles in 798 different associations (with polymorphic haplotype, geographic region and population) along with additional information. The database, as a record of human genetic diversity, at a particular locus, contributes to the study of human evolution and demic expansion; it also has medical relevance.

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 phenylketonuria patients occurs on haplotypes 2.3 and 1.8 in Europeans. The mutation involves a CpG dinucleotide; nonetheless, a single recombination event might also explain the two haplotype associations. By analysis of an STR in the PAH gene 5' to the 408 codon and of the VNTR system in the 3' UTR, we identified unique features of the haplotype 1.8 chromosome harbouring the R408W mutation which are not accounted for by recombination. We conclude that recurrent mutation is the origin of R408W on different PAH haplotypes in Europeans.

'Celtic' phenylketonuria chromosomes found? Evidence in two regions of Quebec Province.

We analyzed mutations, RFLP haplotypes (H), and a VNTR polymorphism at the phenylalanine hydroxylase locus (PAH) in 12 French-Canadian patients with phenylketonuria (PKU) from the eastern region of Quebec province and 13 non-French-Canadian PKU patients from the Montreal region. There were 10 different mutation/H/VNTR haplotype combinations on the 50 PKU chromosomes: one set of 5 and another of 8 accounted for 88 and 77% of these chromosomes in the French-Canadian and non-French-Canadian patients, respectively. The differences in PKU haplotypes between the two groups of probands reflect the different histories of the two populations. Three PKU haplotype combinations were shared by the two groups: IVS12nt1:H-3:VNTR-8, I65T:H-9:VNTR-8, and R408W:H-1:VNTR-8. The IVS12nt1 mutation (18% of the total sample) is prevalent in northern Europeans. The I65T-H-9 and R408W:H-1 haplotypes have seldom been reported in Europeans but when encountered tend to be found in northwestern regions. The R408W mutation is usually on H-2 in Europeans. In Quebec the R408W:H-1 and I65T:H-9 haplotypes accounted for 20% of PKU chromosomes, clustered in two geographic regions, and in every family where they occurred an Irish or Scottish ('Celtic') ancestor could be inferred. We propose that I65T:H-9:VNTR-8 and R408W:H-1:VNTR-8 chromosomes are markers for a diaspora of 'Celtic' descendants. Our findings predict the distributions of these unusual PKU haplotypes in contemporary Europeans.

Metabolic cooperation among cell lines from patients with inborn errors of vitamin B12 metabolism: differential response of cblC and cblD.

Human skin fibroblasts derived from patients with all seven known inborn errors of vitamin B12 metabolism have been studied for functional integrity of methylmalonyl CoA mutase and methionine synthase. Cocultivation of cblC and cblF fibroblasts in the absence of polyethylene glycol resulted in a twofold increase over the expected in both [14C]propionate and [14C]methyltetrahydrofolate incorporation into acid-precipitable material, suggesting that metabolic cooperation between cells occurs. This correction in phenotype seems to be mutant class selective since cblD fibroblasts, which are biochemically similar to cblC cells, do not cooperate metabolically when mixed with cblF cells. These observations lend further support to the division of cblC and cblD diseases into discrete classes.