Pathogenic variants of DNAJC12 and evaluation of the encoded cochaperone as a genetic modifier of hyperphenylalaninemia

Biallelic variants of the gene DNAJC12, which encodes a cochaperone, were recently described in patients with hyperphenylalaninemia (HPA). This paper reports the retrospective genetic analysis of a cohort of unsolved cases of HPA. Biallelic variants of DNAJC12 were identified in 20 patients (generally neurologically asymptomatic) previously diagnosed with phenylalanine hydroxylase (PAH) deficiency (phenylketonuria [PKU]). Further, mutations of DNAJC12 were identified in four carriers of a pathogenic variant of PAH. The genetic spectrum of DNAJC12 in the present patients included four new variants, two intronic changes c.298‐2A>C and c.502+1G>C, presumably affecting the splicing process, and two exonic changes c.309G>T (p.Trp103Cys) and c.524G>A (p.Trp175Ter), classified as variants of unknown clinical significance (VUS). The variant p.Trp175Ter was detected in 83% of the mutant alleles, with 14 cases homozygous, and was present in 0.3% of a Spanish control population. Functional analysis indicated a significant reduction in PAH and its activity, reduced tyrosine hydroxylase stability, but no effect on tryptophan hydroxylase 2 stability, classifying the two VUS as pathogenic variants. Additionally, the effect of the overexpression of DNAJC12 on some destabilizing PAH mutations was examined and a mutation‐specific effect on stabilization was detected suggesting that the proteostasis network could be a genetic modifier of PAH deficiency and a potential target for developing mutation‐specific treatments for PKU.     

Mutations of the phenylalanine hydroxylase (PAH) gene in Brazilian patients with phenylketonuria

In the present study, 115 Brazilian families with phenylketonuria (PKU), mainly from the Southeast of the country, were studied using three laboratory methods (DGGE, SSCP, and sequencing). All 13 exons of the PAH gene were analyzed, including the splicing sites and the promoter region. We identified 50 distinct mutations and characterized 91% of the mutant alleles. The five most prevalent mutations of the 50 mutations identified (50% of the PKU alleles) were IVS10nt-11G-->A (17.4%), followed by R261Q (12.2%), V388M (9.1%), R252W (6.5%), and R270K (4.8%). The other mutations were rare. The mutation spectrum included 10 novel mutations (IVS5nt-54A-->G, IVS6nt17G-->T, E205A, F240S, K274E, I318T, L321L, C357G, IVS11nt17G-->A, and S411X). To characterize the origin and distribution of the PAH alleles we determined the association between the detected mutations and the PCR/RFLP haplotypes and VNTR alleles located on the PAH gene. For those patients whose mutant alleles were detected, we calculated the correlation with pretreatment phenylalanine levels, thus establishing a genotype/phenotype correlation. The present results confirm the marked heterogeneity observed at the PAH locus and contribute to the understanding of the distribution and frequency of PKU mutations in the Brazilian population.     

Two missense mutations causing mild hyperphenylalaninemia associated with DNA haplotype 12.

The genetic defects responsible for most phenylketonuria (PKU) and hyperphenylalaninemia (HPA) cases are located in the phenylalanine hydroxylase (PAH) gene. Approximately 50-60 mutations have been reported in Caucasians and are reflected in a wide range of clinical severities. Most mutations are linked to specific haplotypes, as defined by eight polymorphic restriction sites in the PAH gene. We hypothesized that there is at least one mild mutation linked to haplotype 12 in the Swedish PKU/HPA population, since 7 of 8 patients carrying haplotype 12 had mild HPA. Sequence analysis revealed a C-to-G transversion at the second base of codon 322, resulting in a substitution of glycine for alanine, in four mutant haplotype 12 genes, and a G-to-A transition at the second base of codon 408, resulting in a substitution of glutamine for arginine, in another three mutant haplotype 12 genes. These mutations segregated with mutant haplotype 12 alleles in nuclear families but were not present on normal or other mutant alleles. Both mutations were tested in a eukaryotic expression system in which enzyme activities of different mutant PAH enzymes reflect the relative severities of the mutations, although these in vitro activities cannot be translated directly into in vivo hepatic activities. The A322G mutant PAH had about 75% and the R408Q mutant PAH about 55% of the wild-type PAH enzyme activity. These in vitro activities are the highest reported for mutant PAH enzymes produced in the same expression system.(ABSTRACT TRUNCATED AT 250 WORDS)     

Genotype and phenotype correlation of phenylalanine hydroxylase deficiency among patients from Henan北大核心CSCD

Objective: To delineate the mutation spectrum of phenylalanine hydroxylase (PAH) gene among patients affected with phenylalanine hydroxylase deficiency (PAHD) in Henan Province of China, and to explore the correlation between the genotype and the phenotype. Methods: A total of 155 affected children were recruited. Potential mutation of the PAH gene were analyzed by direct sequencing. The genotype - phenotype correlation was analyzed by matching the expected and observed phenotypes. Results: Over 72 mutations and 108 genotypes have been identified. There were 7 homozygous mutations, including 1 case with EX6-96A>G/EX6-96A>G, 1 with R241C/R241C, 1 with R413P/R413P, and 4 with R243Q/R243Q. Among these, 6 patients have presented classic PKU phenotypes, except for a R241C/R241C genotype which has led to mild PKU. In 104 patients carrying compound PAH mutations, 52 were classic, 34 were mild and 39 had mild HPA. Patients who were heterozygous for EX6-96A>G/R241C, R243Q/A434D, EX6-96A>G/R413P and EX6-96A>G/ R241C were found with both the classic PKU and mild PKU phenotypes. Common mutations associated with mild HPA have included R53H, R243Q, V399V and H107R. The common mutations associated with mild PKU included R243Q, R241C, EX6-96A>G, and IVS4-1G>A. The prevalent mutations in classic PKU were R243Q, EX6-96A>G and V399V. The consistency between prediction of the biochemical genotype and observed phenotype was 77.78%, especially in classic PKU, the consistency was up to 82.14%. Significant correlations were disclosed between pretreatment levels of phenylalanine and AV sum (r= -0.6729, P<0.01). Conclusion: The mutation spectrum of PAH gene in Henan seems to differ from that of other regions. Independent assortment of mutant alleles may result in a complex genotype-phenotype correlation, but the genotypes of PAHD patients have correlated with the phenotype. © 2016, West China University of Medical Sciences. All rights reserved.     

Five novel mutations and two large deletions in a population analysis of the phenylalanine hydroxylase gene

Mutational spectrum of the phenylalanine hydroxylase (PAH) deficiency was investigated in 107 families (90% of the Slovene PKU population). The entire coding region of the PAH gene was analyzed with dHPLC to select the samples where subsequently the automated sequencing analysis was performed. MLPA analysis was performed to identify large deletions, which were later confirmed with long-range PCR. Correlations with patients' phenotypes and genotype-based predictions of BH(4)-responsiveness were assessed. Altogether, disease-causing mutations were identified on 209 alleles (detection rate 97.7%). A spectrum of 36 different disease-causing mutations was identified: 20 missense mutations (80% of the alleles), eight splicing mutations (13% of the alleles), one nonsense mutation (0.5% of the alleles), four small deletions with frame shift (6% of the alleles), one small insertion with frame shift (0.5% of the alleles), and two large deletions (2% of the alleles). The most frequent mutation was p.R408W in exon 12, representing 29% of the alleles, which is in concordance with other neighboring and/or Slavic PKU populations. Other common mutations were: p.R158Q, p.A403V, p.P281L and p.E390G, accounting for 9%, 7%, 7% and 7% of the alleles respectively. Five novel mutations were detected: c.43_44insAG, c.56_59+1delACAGG, p.V45A, p.L62P and p.R157S. Large deletion of exon 5 (EX5del955) was found in three patients and a deletion of exon 3 (EX3del4765) in one patient. A spectrum of 64 different genotypes was found, seven of them accounting for over than a third of all families. Among thirteen families with homozygous mutation (13% of the PKU population), 10 had p.R408W, two had p.R158Q and one had p.E390G. Among 107 families, 58 were classified as classic PKU (54.2%), 28 as mild PKU (25.9%) and 21 as MHP (19.6%). Twenty-six different genotypes (40.6%) were predicted to be BH(4)-responsive, represented by 38 different families (35.5%).     

Molecular analysis of phenylketonuria (PKU) in newborns from Texas

This study describes the mutations at the phenylalanine hydroxylase (PAH) locus in patients with the diagnosis of classic PKU (n=18), hyperphenylalaninemia (HPA) variant (n=9) and benign persistent hyperphenylalaninemia (HPA) (n=13) who were identified by the Texas Newborn Screening Program. Blinded studies were done by sequencing of the 13 exons and exon-intron boundaries of the PAH gene in genomic DNA isolated from dry blood spots. Thirty-six different mutations, including 25 missense mutations, six splice mutations, three deletions and two nonsense mutations were detected in 75 of the 80 mutant alleles (94%). The prevalent mutations were R408W (19%), V388M and IVS10nt-11g->a (6% each), Y414C (5%) and H170D, A403V, T380M and IVS7nt1g->a (4% each). Two novel missense mutations were identified in exon 5 (H170D and N167S). There was genotype/phenotype correlation in 33/40 cases (83%). For this population, exons 12, 11, 7, 5 and 8, which carry 78% of the mutations, would have to be screened first. However, the other exons must be studied when either one or no mutations are found in the primary screening. Hum Mutat 17:523, 2001.     

PKU in Minas Gerais State,Brazil: Mutation Analysis

This work was undertaken in order to ascertain the PKU mutational spectrum in Minas Gerais, Brazil, the relative frequency of the mutations in the State and the origin of these mutations by haplotype determination. Minas Gerais is a trihybrid population formed by miscegenation from Europeans, Africans and Amerindians. All 13 exons of the PAH gene from 78 PKU patients were analyzed, including splicing sites and the promoter region. We identified 30 different mutations and 98% of the PAH alleles were established. A new mutation (Q267X) was identified as well. The most common mutations found were V388M (21.2), R261Q (16.0%), IVS10‐11G>A (15.3%), I65T (5.8%), IVS2+5G>C (5.8%), R252W (5.1%), IVS2+5G>A (4.5%), P281L (3.8%) and L348V (3.2%). These nine mutations correspond to 80% of the PKU alleles in the state. Haplotypes were determined to characterize the origin of the PAH alleles. The majority of the mutations found, with respective haplotypes, are frequent in the Iberian Peninsula. However, there were some mutations that are rare in Europe and four previously unreported mutation‐haplotype associations. I65T and Q267X were found in association with haplotype 38 and may be African in origin or the result of miscegenation in the Brazilian population.     

Mutational spectrum in German patients with phenylalanine hydroxylase deficiency

We report on the spectrum and frequency of mutations in the phenylalanine hydroxylase (PAH) gene in 226 German families with PAH deficiency, most of them from Southern Germany. A total of 88 mutations were identified in 428 out of 438 mutant PAH alleles including one novel stop mutation L293X (c.878T>A). In three families, two phenylketonuria (PKU) mutations were found in cis, and in one family a de novo mutation was observed. A comparison of the results from Southern Germany with those of other parts of Western Germany showed no obvious local mutation clustering. In addition we studied the genotypic spectrum of 39 Turkish families with PAH deficiency. Twenty-three mutations were identified in 73 out of 75 Turkish chromosomes including two novel mutations: E280A (c.839A>G) in Exon 7 and IVS10-7C>A (c.1066-7C>A) in Intron 10. A new polymorphism IVS4+47C/T (c.441+47C>T) was found in mutant and normal PAH alleles. Screening of 170 German and 150 Turkish individuals without family history of PAH deficiency revealed 10 and 12 heterozygotes, respectively, a higher frequency of carriers than expected. A novel mutations of uncertain functional relevance, R169H (c.506G>A) in Exon 5 was found in two Turkish heterozygotes. Most of the Turkish heterozygotes carried mild mutations, indicating that mild forms of PAH deficiency may be more common in that population than previously recognised.     

河南省苯丙酮尿症患者苯丙氨酸羟化酶基因突变的构成

目的 了解河南省苯丙酮尿症(phenylketonuria,PKU)患者苯丙氨酸羟化酶(phenylalanine hydroxylase,PAH)基因突变的特点,为临床遗传咨询、基因诊断及产前诊断提供科学依据.方法 应用聚合酶链反应和DNA正反测序技术对34例经典型PKU患者的PAH基因全部13个外显子及两侧部分内含子进行鉴定分析.结果 34例患者共68个PAH等位基因中共检出23种致病突变(包括错义突变12种、无义突变4种、剪接突变4种和缺失3种)和9种其它基因变异.致病基因突变的总检出率为92.65%(63/68).第7外显子的基因突变种类最多,其次是第5外显于和第11外显子.检索PAH基因突变数据库和查阅相关文献,确定有2种突变[A156P和P69_S70delinsP(delCTT)]国际上未见报道,4种突变(IVS2+5G＞C、G332E、IVS10-14C＞G、L367＞Wfs)国内未见报道.结论 河南省PKU患者PAH基因的突变构成及频率与中国其它地区人群稍有不同.     

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.     

PAH gene mutations in the Sicilian population: association with minihaplotypes and expression analysis.

The molecular basis of PAH deficiency in the Sicilian population is characterized by a marked heterogeneity, with 44 mutations at a single locus identified by a "gene-scanning" approach and accounting for a detection rate of 91%. The remaining 9% of PAH alleles does not bear mutations in any of the 13 exons and 24 exon/intron junctions. Three mutations IVS10nt-11 G > A, R261Q, and A300S accounted for 30.5%, whereas the remaining mutations were found at relative frequencies of less than 5% and 20 mutations were observed once only. Five mutations have been detected only in Sicilians so far. By studying the association of mutations with intragenic STR-VNTR haplotypes ("minihaplotypes"), "identity by descent" has been established for 24 mutations also detected in other populations. This finding supports the hypothesis of a multipolar origin for a large proportion of PAH mutant alleles currently detected in Sicilians. In order to improve our understanding of the clinical heterogeneity of PAH deficiency in this population, we have for the first time analyzed three missense mutations L41F, T92I, and P211T in vitro by the pCDNA3/COS-7 eukaryotic expression system and found an activity of 10, 76, and 72%, respectively, compared to normal PAH. In two HPA patients with mild PKU and mild hyperphenylalaninemia (MHP), harboring respectively L41F/R261Q and T92I/P281L genotypes, the predicted biochemical effect of these genotypes appeared to be consistent with the metabolic phenotypes. In contrast, discordant metabolic phenotypes (mild PKU and MHP) were observed in two unrelated patients bearing the same R261Q/P211T genotype, a finding which underscores the complex relationship linking genotype to phenotype in PAH deficiency. Hypotheses on the possible mechanisms responsible for the observed discordance are discussed. The spectrum of PAH gene mutations in Sicily reflects the complex demographic history of this island at the crossroad of prehistoric and historical migrations in the Mediterranean sea. The data presented in this study also add to the present knowledge on the relationship between PAH genotypes and HPA phenotype and are expected to improve PAH genotyping among individuals with hyperphenylalaninemia.     

Spectrum of mutations in mut methylmalonic acidemia and identification of a common Hispanic mutation and haplotype

Cobalamin nonresponsive methylmalonic acidemia (MMA, mut complementation class) results from mutations in the nuclear gene MUT, which codes for the mitochondrial enzyme methylmalonyl CoA mutase (MCM). To better elucidate the spectrum of mutations that cause MMA, the MUT gene was sequenced in 160 patients with mut MMA. Sequence analysis identified mutations in 96% of disease alleles. Mutations were found in all coding exons, but predominantly in exons 2, 3, 6, and 11. A total of 116 different mutations, 68 of which were novel, were identified. Of the 116 different mutations, 53% were missense mutations, 22% were deletions, duplications or insertions, 16% were nonsense mutations, and 9% were splice-site mutations. Sixty-one of the mutations have only been identified in one family. A novel mutation in exon 2, c.322C>T (p.R108C), was identified in 16 of 27 Hispanic patients. SNP genotyping data demonstrated that Hispanic patients with this mutation share a common haplotype. Three other mutations were seen exclusively in Hispanic patients: c.280G>A (p.G94R), c.1022dupA, and c.970G>A (p.A324T). Seven mutations were seen almost exclusively in black patients, including the previously reported c.2150G>T (p.G717V) mutation, which was identified in 12 of 29 black patients. Two mutations were seen only in Asian patients. Some frequently identified mutations were not population-specific and were identified in patients of various ethnic backgrounds. Some of these mutations were found in mutation clusters in exons 2, 3, 6, and 11, suggesting a recurrent mutation.     

Familial Mediterranean Fever Associated with MEFV Mutations in a Large Cohort of Cypriot Patients

Familial Mediterranean fever (FMF) is caused by mutations in the MEFV gene and the spectrum of mutations among Greek–Cypriots with FMF‐related symptoms was examined. Sequence analysis for exons 2, 3, 5, and 10 of the MEFV gene was performed in a cohort of 593 patients. A total of 70 patients carried mutations in the homozygote or compound heterozygote state, 128 were identified with one MEFV mutation and 395 had no mutations. Of the 268 identified alleles, p.Val726Ala (27.61%) was the most frequent followed by p.Met694Val (19.40%). The missense mutations p.Arg761His (3.73%) and p.Ala744Ser (2.24%) were identified as the rarest. An interesting finding is the high frequency (18.28%) of the complex p.Phe479Leu–p.Glu167Asp that was identified in 49 of the mutated alleles. The MEFV genotypes did not follow a binomial distribution and proved not to satisfy the HWE (P < 0.001). The high percentage (66.61%) of patients with unidentified mutations could be due to mutations in the rest of the coding or noncoding MEFV gene or due to mutations in other genes that are also causing Hereditary Recurrent Fevers. Results from this work indicate the high incidence of FMF in Cyprus and describe the spectrum of the mutations which occur in the country.     

MEFV mutations in Iranian Azeri Turkish patients with familial Mediterranean fever

Familial Mediterranean fever (FMF) is an autosomal recessive autoinflammatory disorder with more than 60 disease-associated mutations in the responsible gene, MEFV . In the present study, we determined 15 MEFV mutations in Iranian Azeri Turkish FMF patients. Five hundred and twenty-four unrelated patients were tested for 15 known mutations in the MEFV gene using amplification refractory mutation system-polymerase chain reaction and polymerase chain reaction-restriction fragment length polymorphism methods. Thirty-five different genotypes were characterized among the studied patients. Of the alleles investigated, the most common mutation was p.M694V (42.4%), followed by p.V726A (17%), p.E148Q (16.2%), and p.M680I (c.2040G>C) (15.2%). The p.R761H mutation (4.7%) was found to be the most frequent among the rare mutations. The mutations p.M680I (c.2040G>A), p.I692del, p.M694del and p.K695R were not found in this cohort. The remaining mutations account for 7.7% of the identifiable mutations. Five different types of complex alleles were also identified. The results show the diversity and the frequency of the mutations in the Iranian Azeri Turkish FMF patients. The p.R761H mutation is rather prevalent in Azeri Turks; therefore, it should be included in the routine molecular diagnosis of FMF patients from this ethnic group.     

A defective splice site at the phenylalanine hydroxylase gene in phenylketonuria and benign hyperphenylalaninemia among Palestinian Arabs.

Phenylketonuria (PKU) and benign hyperphenylalaninemia (HPA) result from different combinations of mutations at the locus for phenylalanine hydroxylase (PAH). While some of these mutations show widespread ethnic distribution, others are unique to specific communities. We report here the first point mutation common among Palestinian Arabs. The mutation (IVS2nt1) involves a dinucleotide substitution (Gg-->Aa) at the donor splice site of intron 2 of the PAH gene and abolishes a recognition site of the restriction enzyme MnlI. IVS2nt1 is associated with two PAH polymorphic haplotypes, 7 and 42. Homozygotes for this mutation are affected with severe, classical PKU. Compound heterozygotes carrying the IVS2nt1 allele and one of several other yet unknown mutations show different degrees of benign HPA.     

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.     

中国北方地区苯丙氨酸羟化酶基因的突变构成

目的了解中国人苯丙氨酸羟化酶（phenylalanine hydroxylase,PAH）基因的突变构成。方法应用PCR单链构象多态结合序列分析检测230例苯丙酮尿症患儿PAH基因全部外显子及其两侧内含子。结果（1）在460个PAH等位基因中检测出75种不同的突变基因,总检测率达94.6%（435/460）,其中3种突变基因（S251-R252〉SfsX89、Y387D和A389G）尚未见到报道。常见的突变基因为：R243Q（21.7%）、EX6-96A〉G（10.2%）、R111X（8.3%）、R413P（6.5%）和Y356X（6.1%）。较常见的突变基因为：V399V（4.1%）、IVS4-1G〉A（3.5%）、IVS7＋2T〉A（2.2%）和R241C（2.2%）。大部分突变集中在第3、5、6、7、11和12外显子及其两侧内含子区域。（2）检测出10种多态性位点,突变率高的4个位点IVS3-22C〉T（56.7%）、IVS10＋97G〉A（75.9%）、Q232Q（89.0%）和V245V（81.9%）,提示PAH基因cDNA序列存在人种差异。结论中国人PAH基因的突变构成与欧洲人群完全不同,与亚洲其它人群有频率的差异。     

天津及周边地区苯丙氨酸羟化酶基因突变谱和新突变分析

目的 分析天津地区人苯丙氨酸羟化酶(phenylalanine hydroxylase gene,PAH)基因突变谱,明确本地区该基因突变类型和特点,为遗传咨询和产前基因诊断提供科学依据.方法 用聚合酶链反应-单链构象多态、变性高效液相色谱法和DNA测序法对天津及河北等地99例已确诊各种类型苯丙酮尿症患儿基因组DNA进行PAH全基因13个外显子分析.结果 全基因共检出41种突变,含错义突变22种、无义突变7种、剪接位点突变9种和缺失突变3种.其中新突变6种(IVS3nt+1g→a、A165D、Q301X、G344D、P362L和R413G).198个PAH等位基因突变总检出率为93.94%.结论 天津及周边地区PAH基因突变谱广、遗传异质性高,一些常见突变的发生频率与以往报道的地域分布略不同.