Ornithine transcarbamylase deficiency: new sites with increased probability of mutation

Ornithine transcarbamylase (OTC) deficiency, the most common inborn error of the urea cycle, shows an X-linked inheritance with frequent new mutations. Investigations of patients with OTC deficiency have indicated an overproportionate share of mutations at CpG dinucleotides. These statistics may, however, be biased because of the easy detection of CpG mutations by screening for TaqI and MspI restriction sites. In the present study, we investigated 30 patients, with diagnosed OTC deficiency, for new sites with an increased probability of mutation by complete DNA sequence analysis of all ten exons of the OTC gene. In six patients, two codons in exons 2 and 5, respectively, contained novel recurrent mutations, all of them affecting CpG dinucleotides. They included C to T and G to A transitions in codon 40, changing an arginine to cysteine and histidine, respectively, and a C to T transition in codon 178 causing the substitution of threonine by methionine. The first two mutations were characterized by a mild clinical course with high risk of sudden death in late childhood or early adulthood, whereas the third mutation showed a more severe phenotypic expression. In addition to these novel mutations, we identified four patients with the known R277W mutation, making it the most common point mutation of the OTC gene.     

Fabry disease: thirty-five mutations in the alpha-galactosidase A gene in patients with classic and variant phenotypes.

BACKGROUND: Fabry disease, an X-linked inborn error of glycosphingolipid catabolism, results from mutations in the alpha-galactosidase A (alpha-Gal A) gene located at Xq22.1. To determine the nature and frequency of the molecular lesions causing the classical and milder variant Fabry phenotypes and for precise carrier detection, the alpha-Gal A lesions in 42 unrelated Fabry hemizygotes were determined. MATERIALS AND METHODS: Genomic DNA was isolated from affected probands and their family members. The seven alpha-galactosidase A exons and flanking intronic sequences were PCR amplified and the nucleotide sequence was determined by solid-phase direct sequencing. RESULTS: Two patients with the mild cardiac phenotype had missense mutations, I9IT and F113L, respectively. In 38 classically affected patients, 33 new mutations were identified including 20 missense (MIT, A31V, H46R, Y86C, L89P, D92Y, C94Y, A97V, R100T, Y134S, G138R, A143T, S148R, G163V, D170V, C202Y, Y216D, N263S, W287C, and N298S), two nonsense (Q386X, W399X), one splice site mutation (IVS4 + 2T-->C), and eight small exonic insertions or deletions (304del1, 613del9, 777del1, 1057del2, 1074del2, 1077del1, 1212del3, and 1094ins1), which identified exon 7 as a region prone to gene rearrangements. In addition, two unique complex rearrangements consisting of contiguous small insertions and deletions were found in exons 1 and 2 causing L45R/H46S and L120X, respectively. CONCLUSIONS: These studies further define the heterogeneity of mutations causing Fabry disease, permit precise carrier identification and prenatal diagnosis in these families, and facilitate the identification of candidates for enzyme replacement therapy.     

Four New Mutations and Two Polymorphic Variants of the Low-Density Lipoprotein Receptor Gene in Familial Hypercholesterolemia Patients from St. Petersburg

In a collection of DNA samples from 100 unrelated patients with clinical features of familial hypercholesterolemia (FH), a search for mutations of exons 4 and 10 of the low-density lipoprotein (LDL) receptor gene was performed using heteroduplex and single-strand conformational polymorphism (SSCP) analyses followed by sequencing of amplified DNA fragments. Four new mutations of the LDL receptor gene were identified: C146R (c.499 T > C), A130P (c.451 G > C), G128G (c.477 T > C), and C188Y (c.626 G > A). Mutation A130P was assigned to the same chromosome with allele variant 447C. Two polymorphic sites in exon 10 of the LDL receptor gene (1413G/A and 1545C/T) were found in the Russian population for the first time. Based on the data obtained, familial hypercholesterolemia was confirmed in seven patients.     

Four new mutations and polymorphic variants of the low density lipoprotein receptor in patients with familial hypercholesterolemia in Saint Petersburg

In a collection of DNA samples from 100 unrelated patients with clinical features of familial hypercholesterolemia (FH), a search for mutations of exons 4 and 10 of the low-density lipoprotein (LDL) receptor gene was performed using heteroduplex and single-strand conformational polymorphism (SSCP) analyses followed by sequencing of amplified DNA fragments. Four new mutations of the LDL receptor gene were identified: C146R (c.499 T > C), A130P (c.451 G > C), G128G (c.477 T > C), and C188Y (c.626 G > A). Mutation A130P was assigned to the same chromosome with allele variant 447C. Two polymorphic sites in exon 10 of the LDL receptor gene (1413G/A and 1545C/T) were found in the Russian population for the first time. Based on the data obtained, familial hypercholesterolemia was confirmed in seven patients.     

Identification of four novel splice site mutations in the ornithine transcarbamylase gene

Ornithine transcarbamylase (OTC) deficiency, the most common inborn error of the urea cycle, shows X-linked inheritance with frequent new mutations. Using polymerase chain reaction (PCR) amplification of the individual exons including adjacent intron sequences followed by direct sequencing of the amplimers we identified four new mutations affecting donor splice sites of introns 2, 5, 6, and 8. The mutation at the first position of intron 2 was a G to A exchange associated with acute neonatal hyperammonemia in a male patient at the age of 5 months. A G to C substitution in intron 5 was detected in a boy who developed 2 days after birth hypotonia, and respiratory distress, followed by severe hyperammonemia and terminal coma. The intron 6 mutation, a G to T substitution, was detected in a girl presenting with first episodes of vomiting and agitation at the age of 2 months. The mutation in intron 8, also a G to T transition, caused fatal hyperammonemia and early death at the age of 15 days in a male patient. We present four donor splice site mutations resulting in severe neonatal or very early onset of the disease in three boys and in one female patient. As the GT dinucleotide of the 5 donor splice site is invariant and required for correct splicing the described mutations may lead to improperly spliced mRNAs and aberrant gene products.     

Relative frequency of mutations causing ornithine transcarbamylase deficiency in 78 families

Approximately 90 different mutations associated with ornithine transcarbamylase (OTC) deficiency are currently known. Thus, the majority represent private mutations. However, some of the mutations seemed to be recurrent. Our laboratories identified apparent deleterious mutations in 78 consecutive families with OTC deficiency by screening all exons and exon/intron borders using single-strand conformational polymorphism (75 families) or sequencing of the entire coding sequence (3 families). Large deletions of one or more exons were found in 8% of families and approximately 10% had small deletions or insertions of 1–5 bases. Splice site mutations were found in 18% of families. Contrary to previous reports, recurrent point mutations seemed to be equally distributed among most CpG dinucleotides rather than show prevalent mutations. No single point mutation had a relative frequency of more than 6.4%. Of the 64 families with nucleotide substitutions, 24 (38%) were G to A with the next most common being C to T (16%) and A to T (11%).     

Mutations in argininosuccinate synthetase mRNA of Japanese patients,causing classical citrullinemia.

Citrullinemia is an autosomal recessive disease caused by a genetic deficiency of argininosuccinate synthetase. In order to characterize mutations in Japanese patients with classical citrullinemia, RNA isolated from 10 unrelated patients was reverse-transcribed, and cDNA amplified by PCR was cloned and sequenced. The 10 mutations identified included 6 missense mutations (A118T, A192V, R272C, G280R, R304W, and R363L), 2 mutations associated with an absence of an exon 7 or exon 13, 1 mutation with a deletion of the first 7 bp in exon 16 (which might be caused by abnormal splicing), and 1 mutation with an insertion of 37 bp within exons 15 and 16 in cDNA. The insertion mutation and the five missense mutations (R304W being excluded) are new mutations described in the present paper. These are in addition to 14 mutations (9 missense mutations, 4 mutations associated with an absence of an exon in mRNA, and 1 splicing mutation) that we identified previously in mainly American patients with neonatal citrullinemia. Two of these 20 mutations, a deletion of exon 13 sequence and a 7-bp deletion in exon 16, were common to Japanese and American populations from different ethnic backgrounds; however, other mutations were unique to each population. Furthermore, the presence of a frequent mutation--the exon 7 deletion mutation in mRNA, which accounts for 10 of 23 affected alleles--was demonstrated in Japanese citrullinemia. This differs from the situation in the United States, where there was far greater heterogeneity of mutations.     

Mutation spectrum of the PAH gene in the PKU patients from Khorasan Razavi province of Iran

Background

Characterization of the molecular basis of phenylketonuria (PKU) in North-east of Iran has been accomplished through the analysis of 62 unrelated chromosomes from 31 Iranian PKU patients.

Methods

Phenylalanine hydroxylase (PAH) gene mutations have been analyzed by direct DNA sequencing exons 6, 7, 10 and 11.

Results

A mutation detection rate of 74% was achieved. Eleven different mutations were found, with the most frequent mutation, IVS10-11G > A, accounting for 19% of Khorasan-Razavi PKU alleles. Ten mutations (R176X, E280K, IVS11 + 1G > C, S231P, Q383X, R243X, I224T, E390G, R252W and P281L) represent the rest PKU chromosomes. One novel mutation, Q383X in the homozygote form was identified which is located in the catalytic domain (residues143–410).

Conclusion

With this high detection rate of mutations in North-east of Iran, new strategy for carrier testing could be DNA sequencing of these four exons. The other exons and boundaries will be studied only when either one or no mutations are detected in the initial screen.     

Diverse growth hormone receptor gene mutations in Laron syndrome.

To better understand the molecular genetic basis and genetic epidemiology of Laron syndrome (growth-hormone insensitivity syndrome), we analyzed the growth-hormone receptor (GHR) genes of seven unrelated affected individuals from the United States, South America, Europe, and Africa. We amplified all nine GHR gene exons and splice junctions from these individuals by PCR and screened the products for mutations by using denaturing gradient gel electrophoresis (DGGE). We identified a single GHR gene fragment with abnormal DGGE results for each affected individual, sequenced this fragment, and, in each case, identified a mutation likely to cause Laron syndrome, including two nonsense mutations (R43X and R217X), two splice-junction mutations, (189-1 G to T and 71 + 1 G to A), and two frameshift mutations (46 del TT and 230 del TA or AT). Only one of these mutations, R43X, has been previously reported. Using haplotype analysis, we determined that this mutation, which involves a CpG dinucleotide hot spot, likely arose as a separate event in this case, relative to the two prior reports of R43X. Aside from R43X, the mutations we identified are unique to patients from particular geographic regions. Ten GHR gene mutations have now been described in this disorder. We conclude that Laron syndrome is caused by diverse GHR gene mutations, including deletions, RNA processing defects, translational stop codons, and missense codons. All the identified mutations involve the extracellular domain of the receptor, and most are unique to particular families or geographic areas.     

The spectrum of mutations in the low-density lipoprotein receptor gene in the Russian population

The spectrum of mutations in the low-density lipoprotein (LDL) receptor gene was studied in a sample of hypercholesterolemia patients of Caucasoid origin from the population of Russia. The examined patients were 45 to 49 years old and had the highest level of total serum cholesterol in this age group. Seven previously nondescribed mutations have been revealed in exon 9 (R410G; M412V) and in exon 12 (Y/Y576; N/N591; L605V; L605R; A612G). Twelve previously described mutations have been identified in exons 2 (C/C27), 5 (C261F; E240X), 6 (E288K), 8 (A391T), 9 (E418G; L432R; D433E), 11 (G/G549; E558K; L/L568), and 12 (G592E). Only one of these mutations was previously described in Russia in a clinical sample of patients with familial hypercholesterolemia. The spectrum of LDL receptor gene mutations in the population sample of patients with hypercholesterolemia significantly differs from the mutation spectrum in patients with familial hypercholesterolemia (clinical samples). Sequencing of the LDL receptor gene is a highly efficient method for identifying the markers of hypercholesterolemia predisposition in a population.     

Molecular diagnosis of mucopolysaccharidosis type II (Hunter syndrome) by automated sequencing and computer-assisted interpretation: toward mutation mapping of the iduronate-2-sulfatase gene.

Virtually all mutations causing Hunter syndrome (mucopolysaccharidosis type II) are expected to be new mutations. Therefore, as a means of molecular diagnosis, we developed a rapid method to sequence the entire iduronate-2-sulfatase (IDS) coding region. PCR amplicons representing the IDS cDNA were sequenced with an automatic instrument, and output was analyzed by computer-assisted interpretation of tracings, using Staden programs on a Sun computer. Mutations were found in 10 of 11 patients studied. Unique missense mutations were identified in five patients: H229Y (685C-->T, severe phenotype); P358R (1073C-->G, severe); R468W (1402C-->T, mild); P469H (1406C-->A, mild); and Y523C (1568A-->G, mild). Non-sense mutations were identified in two patients: R172X (514C-->T, severe) and Q389X (1165C-->T, severe). Two other patients with severe disease had insertions of 1 and 14 bp, in exons 3 and 6, respectively. In another patient with severe disease, the predominant (> 95%) IDS message resulted from aberrant splicing, which skipped exon 3. In this last case, consensus sequences for splice sites in exon 3 were intact, but a 395 C-->G mutation was identified 24 bp upstream from the 3' splice site of exon 3. This mutation created a cryptic 5' splice site with a better consensus sequence for 5' splice sites than the natural 5' splice site of intron 3. A minor population of the IDS message was processed by using this cryptic splice site; however, no correctly spliced message was detected in leukocytes from this patient. The mutational topology of the IDS gene is presented.     

Eight novel CARD15 variants detected by DNA sequence analysis of the CARD15 gene in 111 patients with inflammatory bowel disease

We performed a limited DNA sequence analysis of the CARD15 gene in 89 patients with Crohn’s disease (CD), 19 patients with ulcerative colitis (UC), and three patients with indeterminate colitis (IC), who were heterozygous carriers of one of the common CARD15 mutations [c.2104C>T (p.R702W), c.2722G>C (p.G908R), or c.3019_3020insC (p.Leu1007fsX1008)], the c.2462+10A>C variant, or of a new amino acid substitution in the 3′-end of exon 4. CARD15 exons 4, 5, 6, 8, and 11 were amplified by PCR and completely sequenced, thereby theoretically covering 73.9% of the described CARD15 variants and 96.6% of the mutated alleles. Using this approach, eight novel amino acid substitutions [c.1171C>T (p.R391C), c.1387C>G (p.P463A), c.2138G>A (p.R713H), c.2278C>T (p.R760C), c.2368C>T (p.R790W), c.2371C>T (p.R791W), c.2475C>G (p.N825K), and c.2546C>T (p.A849V)] were detected in six CD and two IC patients, and one UC patient. A severe disease phenotype was observed especially in patients who are compound-heterozygous for a common and a novel CARD15 mutation.Schnitzler and Brand contributed equally     

先天性甲减患儿的甲状腺过氧化物酶基因突变研究

目的:研究甲状腺过氧化物酶基因(TPO)在中国先天性甲状腺功能减退症(CH)患儿中的突变及其家系遗传规律。方法:收集140例CH患儿及部分家系,提取外周血DNA,采用靶向测序的方法检测患者TPO基因的突变情况,设计引物扩增TPO基因的各个外显子区以及外显子内含子的交界区,用二代测序技术检测TPO基因的突变且进行一代测序验证,同时对其中两例携带有TPO基因复合杂合突变的患儿的父母进行一代测序验证。结果:140名先天性甲减患儿中,13例病人携带12个不同的TPO基因突变位点(R189Q、C269S、W428R、A430E、A433P、A489T、V748M、C756fs、E799D、G860R、P883S、Q913fs),其中有一个位点为热点突变(6个病人携带C756fs),三个突变为新发现的位点(C269S、A430E、E799D)。结论:TPO基因在中国先天性甲减患儿中的突变率较高,遗传模式为常染色体隐性遗传。     

一VHL 家系致病基因突变的检测与分析*

目的:研究中枢神经系统血管母细胞瘤(VHL)基因突变的主要类型和发生情况,探讨VHL疾病发生的原因、临床特点等。方法:以基因组DNA为模板,PCR扩增VHL基因3个外显子及5’UTR区域,结合DNA直接测序的方法,对一个有多个小脑血管母细胞瘤患者的家系进行VHL基因突变检测。结果:发现该家系VHL基因5’UTR区、外显子1和外显子2正常,外显子3存在c.499C>G的改变,为一个错意突变,氨基酸改变为Arg-Gln(p.R167Q),该突变是导致这个家系的患者发病的直接原因。结论:VHL疾病的突变主要集中在VHL蛋白的α、β结构域,位于α结构域的p.R167Q突变为该VHL家系致病的主要原因。     

Evaluation of the ELOVL4 gene in a Chinese family with autosomal dominant STGD3-like macular dystrophy

Stargardt disease-3 (STGD3) is an autosomal dominant juvenile-onset macular dystrophy characterized by progressive decreasing visual acuity, bilateral atrophic changes in the macula and absence of characteristic dark choroids. We identified a STGD3-like macular dystrophy pedigree by clinical examination. To explore whether the STGD3-like phenotype in the kindred is linked to ELOVL4 gene or associated with any other identified STGD gene, we extracted genomic DNA from leukocytes of peripheral blood from the available family members and 50 normal controls for mutation analysis. Then the exons of ELOVL4, RDS and the three exons of ABCR were amplified by polymerase chain reaction (PCR). All PCR products were screened for mutations by combination of denaturing high-performance liquid chromatography (DHPLC) analysis and DNA sequencing. No mutation was found in the exons of three candidate genes, but we obtained three non-pathogenic polymorphisms, IVS5–2533T A in ELOVL4, 558C T (Val106Val) and 1150G C (Glu304Gln) in RDS. And IVS5–2533T A is never shown in the previous references. These data suggested that there exist other unknown genes responsible for the STGD3-like phenotype in the pedigree.     

Comparison of RNase A, a chemical cleavage and GC-clamped denaturing gradient gel electrophoresis for the detection of mutations in exon 9 of the human acid beta-glucosidase gene.

Gaucher disease (GD), which results from mutations in the human acid beta-glucosidase (beta-Glc) gene, was used as a model system to compare the utility of three methods capable of detecting single base substitutions. PCR-amplified beta-Glc exon 9 sequences of GD patients were screened for single base mutations by GC-clamped denaturing gradient gel electrophoresis (DGGE) and RNase A cleavage of RNA-DNA heteroduplexes, and by chemical (hydroxylamine/osmium tetroxide) cleavage of dsDNA heteroduplexes. PCR products showing abnormal behaviour were cloned and sequenced. Three new point mutations were detected by this strategy. A G to C (Asp409 to His409) substitution was present in two Type 1 and one Type 3 GD patients; an A to T transversion (Asp409 to Val409) was detected in only a single Type 3 individual, and a G to T mutation (Val394 to Leu394) was present in one Type 1 and one Type 3 patient. GD thus exhibits extensive molecular heterogeneity, with at least five single base mutations in beta-Glc exon 9. In every case verified by ASO hybridization, DGGE had correctly identified the presence of the three new mutations, as well as the two previously described exon 9 mutations. In comparison, although RNase A and the chemical method were both able to detect some of these mutations, neither method reproducibly detected all of them. Additionally, DGGE was the only method that was able to reliably determine whether a given mutation was present homozygously or heterozygously. These results suggest that GC-clamped DGGE may be a more reliable and informative screening method for point mutation detection.     

温州地区2型糖尿病患者线粒体DNA 3243、3316位点的突变筛查

为了解浙江省温州地区2型糖尿病病人中线粒体DNA tRNALeu (UUR)基因A3243G及NADH 脱氢酶亚单位1 (ND1)基因G3316A位点突变的发生频率, 并探讨突变与2型糖尿病主要临床指标出现的相关性。对随机收集的无血缘关系的244例温州地区2型糖尿病患者进行研究, 同时选择156例无 DM 家族史的糖耐量正常者作为对照组, 用聚合酶链反应及限制性片段长度多态性分析技术进行点突变筛选, 筛选到的异质性突变样本经T-A克隆后再作测序和变性高效液相色谱(DHPLC)确证。结果在244例的2型糖尿病患者中检出A3243G突变1例(0.410%), 156例对照者中未检出该突变, 突变发生率在两组间差异无统计学意义(P>0.05); 2型糖尿病患者中检出G3316A突变4例(1.639%), 156例对照者中检出突变2例(1. 282%), 突变发生率在两组间差异无统计学意义(P>0.05)。结果表明线粒 体tRNALeu (UUR) 基因A3243G突变在浙江温州2型糖尿病人群中发生频率低, 不是温州人群中2型糖尿病的常见病因。线粒体ND1基因G3316A突变在糖尿病人群中的发生频率也较低, 且在正常人群中也有出现, 可能仅为人群中线粒体DNA的基因多态性。     

Missense mutations of the interleukin-12 receptor beta 1(IL12RB1) and interferon-gamma receptor 1 (IFNGR1) genes are not associated with susceptibility to lepromatous leprosy in Korea

Interleukin-12 receptor beta 1 ( IL12RB1), interleukin-12 receptor beta 2 ( IL12RB2), and interferon gamma receptor 1 ( IFNGR1) perform important roles in the host defense against intracellular pathogens such as Mycobacteria. Several mutations within their genes have been confirmed as associated with increased susceptibility to mycobacterial infection. However, the association between mutations of the IL12RB1, IL12RB2, and IFNGR1 encoding genes and lepromatous leprosy has not been studied. This study screened for polymorphisms within IL12RB1, IL12RB2, and IFNGR1 encoding genes in the Korean populations using polymerase chain reaction (PCR)/single-strand conformation polymorphism (SSCP) DNA sequencing assay, and an association study was performed using the missense mutations of 705 A/G (Q214R), 1196 G/C (G378R), 1637 G/A (A525T), and 1664 C/T (P534S) of the IL12RB1, 83 G/A (V14M), and 1443 T/C (L467P) for the IFNGR1 encoding genes. There were no differences in the genotype and allele frequencies of IL12RB1 and IFNGR1 genes between 93 lepromatous leprosy patients and 94 control subjects. In conclusion, missense mutations of 705 A/G (Q214R), 1196 G/C (G378R), 1637 G/A (A525T), 1664 C/T (P534S) of the IL12RB1, 83 G/A (V14 M), and 1443 T/C (L467P) of the IFNGR1 encoding genes have no association with the susceptibility to lepromatous leprosy in the Korean population.     

Mutation analysis using the restriction site mutation (RSM) assay

The restriction site mutation (RSM) assay (see Steingrimsdottir et al. [H. Steingrimsdottir, D. Beare, J. Cole, J.F.M. Leal, T. Kostic, J. Lopez-Barea, G. Dorado, A.R. Lehmann, Development of new molecular procedures for the detection of genetic alteration in man, Mutat. Res. 353 (1996) pp. 109–121] for a review) has been developed as a genotypic mutation detection system capable of identifying mutations occurring in restriction enzyme sites of genomic DNA. Here we will report the steps taken to overcome some of the initial problems of the assay, namely the lack of quantitative data and limited sensitivity, the aim being to achieve a methodology suitable for the study of low dose chemical exposures. Quantitative data was achieved in the RSM assay by the inclusion of an internal standard molecule in the PCR amplification stage, thus allowing the calculation of both spontaneous and induced mutation frequencies. The sensitivity of the assay was increased through the discovery that intron sequences of genomic DNA accumulated more mutations in vivo compared to the exons, presumably due to differential selective pressure within genes [G.J.S. Jenkins, I.deG. Mitchell, J.M. Parry, Enhanced restriction site mutation (RSM) analysis of 1,2-dimethylhydrazine-induced mutations, using endogenous p53 intron sequences, Mutagenesis 12 (1997) pp. 117–123]. This increased sensitivity was examined by applying the RSM assay to analyse the persistence of N-ethyl-N-nitrosourea (ENU)-induced mutations in mice testes. Germ line mutations were sought in testes DNA 3, 10 and 100 days after ENU treatment. Mutations were detected in exons and especially intron regions, the intron mutations were more persistent, still being detected 100 days post-chemical treatment. Assignment of these mutations as ENU induced was complicated in some cases where the spontaneous mutation level was high. This theme of mutation persistence was further investigated by studying the presence of 4-nitroquinoline-1-oxide (4-NQO)-induced DNA mutations in vitro. This study also analysed the relationship between DNA adduct formation and DNA mutation induction by the concurrent RSM analysis and post-labelling analysis of 4-NQO treated human fibroblasts. The results demonstrated that early DNA mutations detected 4 days post-treatment by the RSM assay were probably ex vivo mutations induced by Taq polymerase misincorporation of 4-NQO adducted DNA, due to the maximum levels of 4-NQO adducts being present at this time point. A later mutational peak, after the adduct level had declined, was assumed to be due to DNA sequence changes produced in the fibroblasts by the in vivo processing of DNA adducts.