Contribution of arylsulfatase A mutations located on the same allele to enzyme activity reduction and metachromatic leukodystrophy severity

The occurrence of different mutations on the same arylsulfatase A allele is not uncommon, due to the high frequency of several variants, among which the pseudodeficiency mutations are particularly important. We identified a late infantile metachromatic leukodystrophy patient carrying on one allele the new E253K mutation and the known T391S polymorphism, and on the other allele the common P426L mutation, usually associated with the adult or juvenile form of the disease, and the N350S and *96A>G pseudodeficiency mutations. To analyze the contribution of mutations located on the same allele to enzyme activity reduction, as well as the possible phenotype implications, we performed transient expression experiments using arylsulfatase A cDNAs carrying the identified mutations separately and in combination. Our results indicate that mutants containing multiple mutations cause a greater reduction of ARSA activity than do the corresponding single mutants, the total deficiency likely corresponding to the sum of the reductions attributed to each mutation. Consequently, each mutation may contribute to ARSA activity reduction, and, therefore, to the degree of disease severity. This is particularly important for the alleles containing a disease-causing mutation and the pseudodeficiency mutations: in these alleles pseudodeficiency could play a role in affecting the clinical phenotype.     

Arylsulfatase A: Relationship of genotype to variant electrophoretic properties

Previous work has shown that specific electrophoretic variants of arylsulfatase A occur more frequently among alcoholic patients than among psychiatric and normal controls. The present study sequenced the gene for two of these electrophoretic variants, IIIa and IIIb. Both contain an A-to-G transition corresponding to substitution of Asn₃₅₀ by Ser, with the resulting loss of anN -glycosylation site. The difference in electrophoretic mobility of their gene products is due to a mutation in the IIIb gene resulting in the replacement of Arg₄₉₆ by His. Evidence is presented that individuals possessing either of two other electrophoretic variants, Va and Vb, are heterozygous for a normal ASA allele and either a IIIa or IIIb allele, respectively. Thus, the relationship between the phenotype of the electrophoretic banding patterns, IIIa, IIIb, Va, and Vb, and their corresponding genotypes has been elucidated.     

A new polymorphism of arylsulfatase A within the coding region

A 10-year-old boy with juvenile metachromatic leukodystrophy (MLD) presented with the 459 + 1G→A arylsulfatase A (ASA) mutation on one allele. To detect his complete genotype, the other ASA allele was sequenced and a T-to-C transition at nucleotide 376 in exon 2 was identified. This missense mutation results in a substitution of leucine 76 by proline. Of 20 MLD unrelated controls, 18 carried the L/P76 mutation either in the homozygous (n = 6) or heterozygous (n = 12) state. The presence or absence of L/P76 did not influence leukocyte ASA activity or urinary sulfatide excretion. Apparently, the substitution of leucine 76 by proline is a common ASA polymorphism, neither being related to MLD nor creating ASA pseudodeficiency. However, because of its frequency and location, L/P76 may be of particular importance in genetic studies requiring the differentiation of the ASA alleles within a kindred. Further studies are directed to the as yet unresolved genotype of the index case with juvenile MLD. Received: 5 March 1996 / Revised: 16 April 1996     

Identification of the mutations in the T-protein gene causing typical and atypical nonketotic hyperglycinemia

We have investigated the molecular lesions of T-protein deficiency causing typical or atypical nonketotic hyperglycinemia (NKH) in two unrelated pedigrees. A patient with typical NKH was identified as being homozygous for a missense mutation in the T-protein gene, a G-to-A transition leading to a Gly-to-Asp substitution at amino acid 269 (G269D). Sibling patients of a second family with atypical NKH had two different missense mutations in the T-protein gene (compound heterozygote), a G-to-A transition leading to a Gly-to-Arg substitution at amino acid 47 (G47R) in one allele, and a G-to-A transition leading to an Arg-to-His substitution at amino acid 320 (R320H) in the other allele. Gly 269 is conserved in T-proteins of various species, even in E. coli, whereas Gly 47 and Arg 320 are replaced by Ala and Leu, respectively, in E. coli. The mutation occurring in more conservative amino acid residues thus results in more deleterious damage to the T-protein, and gives the severe clinical phenotype, viz., typical NKH.     

Identification of a missense phenylketonuria mutation at codon 408 in Chinese

Summary A single base transition of G to A at codon 408 of the phenylalanine hydroxylase gene is identified. This missense mutation results in the substitution of Arg⁴⁰⁸ for Gln⁴⁰⁸ (R408Q) and accounts for about 5% of phenylketonuria (PKU) chromosomes among Chinese. This mutation is in linkage disequilibrium with restriction fragment length polymorphism haplotype 4. In addition, another mutation (R408W), at the same codon and prevalent on haplotype 2 PKU chromosomes in Caucasians, is identified in a PKU allele of haplotype 41. Previously, this mutation has been observed on a haplotype 44 background in Chinese PKU patients.     

Melanocortin 1-receptor (MC1R) mutations are associated with plumage colour in chicken

The co-segregation of plumage colour and sequence polymorphism in the melanocortin 1-receptor gene (MC1R) was investigated using an intercross between the red junglefowl and White Leghorn chickens. The results provided compelling evidence that the Extended black (E) locus controlling plumage colour is equivalent to MC1R. E/MC1R was assigned to chromosome 11 with overwhelming statistical support. Sequence analysis indicated that the E92K substitution, causing a constitutively active receptor in the sombre mouse, is the most likely causative mutation for the Extended black allele carried by the White Leghorn founders in this intercross. The MC1R sequence associated with the recessive buttercup (ebc) allele indicated that this allele evolved from a dominant Extended black allele as it shared the E92K and M71T substitutions with some E alleles. It also carried a third missense mutation H215P which thus may interfere with the constitutive activation of the receptor caused by E92K (and possibly M71T).     

An effect of a missense mutation in the porcine melanocortin-4 receptor (MC4R) gene on production traits in Polish pig breeds is doubtful

A missense G-A SNP in the porcine melanocortin-4 receptor (MC4R) gene that causes an Asp-Asn substitution at position 298 of the corresponding MC4R protein is considered to be economically important, although published results on its effect are inconsistent. We analysed the association of this MC4R polymorphism with production traits in 679 gilts from two breeds, Polish Large White (PLW) and Polish Landrace (PL), as well as one synthetic line 990. The frequency of the A allele differed significantly among the breeds with frequencies of 0.76, 0.29 and 0.16 in PLW, PL and line 990 respectively. There was no evidence of an effect of this polymorphism on daily food intake, backfat thickness or abdominal fat. The A allele was correlated with higher test daily gains and lower levels of intramuscular fat in PL, and increased levels of intramuscular fat in PLW.     

Mutations in the arylsulfatase A pseudodeficiency allele causing metachromatic leukodystrophy.

We identified a patient suffering from late infantile metachromatic leukodystrophy who genetically seemed to be homozygous for the mutations signifying the arylsulfatase A pseudodeficiency allele. Homozygosity for the pseudodeficiency allele is associated with low arylsulfatase A activity but does not cause a disease. Analysis of the arylsulfatase A gene in this patient revealed a C----T transition in exon 2, causing a Ser 96----Phe substitution in addition to the sequence alterations causing arylsulfatase A pseudodeficiency. Although this mutation was found only in 1 of 78 metachromatic leukodystrophy patients tested, five more patients were identified who seemed hetero- or homozygous for the pseudodeficiency allele. The existence of nonfunctional arylsulfatase A alleles derived from the pseudodeficiency allele calls for caution when the diagnosis of arylsulfatase A pseudodeficiency is based solely on the identification of the mutations characterizing the pseudodeficiency allele.     

Establishing a control population to screen for the occurrence of nineteen unclassified variants in the BRCA1 gene by denaturing high-performance liquid chromatography

Numerous missense mutations in BRCA1 and BRCA2 are detected during clinical screening of breast and ovarian cancer patients. Because of the lack of a functional protein assay to determine the functional consequence of these mutations, patients are often frustrated by inconclusive results due to unclassified variants (UV). To determine whether a reported UV is also present in a control collective and therefore more likely be a rare polymorphism than a deleterious mutation, we collected a control population consisting of 95 females and 25 males aged over 60 years (mean 73 years) without a family history of BRCA associated cancers. The age of the control group is beyond the median onset of breast and ovarian cancer with a hereditary background. These controls were analysed for the presence of 19 known UVs in BRCA1 with the DHPLC technique. Only four of the 19 variants (R496H, R866C, S1040N and M1652I) were detected and can be considered polymorphims. However, no firm conclusion can be drawn about the functional relevance of the other 15 variants.     

Etiological point mutations in the hereditary multiple exostoses gene EXT1: a functional analysis of heparan sulfate polymerase activity

Hereditary multiple exostoses (HME), a dominantly inherited genetic disorder characterized by multiple cartilaginous tumors, is caused by mutations in members of the EXT gene family, EXT1 or EXT2. The corresponding gene products, exostosin-1 (EXT1) and exostosin-2 (EXT2), are type II transmembrane glycoproteins which form a Golgi-localized heterooligomeric complex that catalyzes the polymerization of heparan sulfate (HS). Although the majority of the etiological mutations in EXT are splice-site, frameshift, or nonsense mutations that result in premature termination, 12 missense mutations have also been identified. Furthermore, two of the reported etiological missense mutations (G339D and R340C) have been previously shown to abrogate HS biosynthesis (McCormick et al. 1998). Here, a functional assay that detects HS expression on the cell surface of an EXT1-deficient cell line was used to test the remaining missense mutant exostosin proteins for their ability to rescue HS biosynthesis in vivo. Our results show that EXT1 mutants bearing six of these missense mutations (D164H, R280G/S, and R340S/H/L) are also defective in HS expression, but surprisingly, four (Q27K, N316S, A486V, and P496L) are phenotypically indistinguishable from wild-type EXT1. Three of these four "active" mutations affect amino acids that are not conserved among vertebrates and invertebrates, whereas all of the HS-biosynthesis null mutations affect only conserved amino acids. Further, substitution or deletion of each of these four residues does not abrogate HS biosynthesis. Taken together, these results indicate that several of the reported etiological mutant EXT forms retain the ability to synthesize and express HS on the cell surface. The corresponding missense mutations may therefore represent rare genetic polymorphisms in the EXT1 gene or may interfere with as yet undefined functions of EXT1 that are involved in HME pathogenesis.     

Identification and characterization of a novel variant of the human P2X<Subscript>7</Subscript> receptor resulting in gain of function

The P2X₇ receptor exhibits significant allelic polymorphism in humans, with both loss and gain of function variants potentially impacting on a variety of infectious and inflammatory disorders. At least five loss-of-function polymorphisms (G150R, R307Q, T357S, E496A, and I568N) and two gain-of-function polymorphisms (H155Y and Q460R) have been identified and characterized to date. In this study, we used RT-PCR cloning to isolate and characterize P2X₇ cDNA clones from human PBMCs and THP-1 cells. A previously unreported variant with substitutions of V80M and A166G was identified. When expressed in HEK293 cells, this variant exhibited heightened sensitivity to the P2X₇ agonist (BzATP) relative to the most frequent allele, as shown by pore formation measured by fluorescent dye uptake into cells. Mutational analyses showed that A166G alteration was critical for the gain-of-function change, while V80M was not. Full-length variants with multiple previously identified nonsynonymous SNPs (H155Y, H270R, A348T, and E496A) were also identified. Distinct functional phenotypes of the P2X₇ variants or mutants constructed with multiple polymorphisms were observed. Gain-of-function variations (A166G or H155Y) could not rescue the loss-of-function E496A polymorphism. Synergistic effects of the gain-of-function variations were also observed. We also identified the A348T alteration as a weak gain-of-function variant. Thus, these results identify the new gain-of-function variant A166G and demonstrate that multiple-gene polymorphisms contribute to functional phenotypes of the human P2X₇ receptor. Furthermore, the results demonstrate that the C-terminal of the cysteine-rich domain 1 of P2X₇ is critical for regulation of P2X₇-mediated pore formation.     

Mutational analysis of 85 mucopolysaccharidosis type I families: frequency of known mutations, identification of 17 novel mutations and in vitro expression of missense mutations

The lysosomal storage disorder, mucopolysaccharidosis type I (MPS I), is caused by a deficiency of the enzyme alpha-L-iduronidase, which is involved in the breakdown of dermatan and heparan sulphates. There are three clinical phenotypes, ranging from the Hurler form characterised by skeletal abnormalities, hepatosplenomegaly and severe mental retardation, to the milder Scheie phenotype where there is aortic valve disease, corneal clouding, limited skeletal problems, but no mental retardation. In this study, 85 MPS I families (73 Hurler, 5 Hurler/Scheie, 7 Scheie) were screened for 9 known mutations (Q70X, A75T, 474-2a>g, L218P, A327P, W402X, P533R, R89Q, 678-7g>a). W402X was the most frequent mutation in our population (45.3%) and Q70X was the second most frequent (15.9%). In 30 families, either one or both of the mutations were not identified, which accounted for 25.9% of the total alleles. Therefore, all 14 exons of the alpha-L-iduronidase gene were screened in these patients and 23 different sequence changes were found, 17 of which were previously unknown. The novel sequence changes include 4 deletions (153delC, 628del5, 740delC, 747delG), 5 nonsense mutations (Q60X, Y167X, Q400X, R619X, R628X), 6 missense mutations (C205Y, G208V, H240R, A319V, P496R, S633L), a splice site mutation (IVS12+5g>a), and a rare polymorphism (A591T). The polymorphism and novel missense mutations were transiently expressed in COS-7 cells and all of them except the polymorphism showed complete loss of enzyme activity. In total, 165 of the 170 mutant alleles were identified in this study and despite the high frequency of W402X and Q70X, the identification of many novel mutations unique to individual families further highlights the genetic heterogeneity of MPS I.     

Evolutionary origins of two tightly linked mutations in arylsulfatase-A pseudodeficiency

Deficient arylsulfatase A activity causes the neurodegenerative disease metachromatic leukodystrophy. However, some individuals with deficient enzyme activity appear clinically normal. This “pseudodeficiency” allele commonly found among many reported populations (frequency ∼ 0.10) is associated with two A→G transitions in cis in the arylsulfatase A gene causing the simultaneous loss of an N-glycosylation and a polyadenylation signal. To understand the evolutionary relationship between such common and tightly linked mutations, we studied 400 individuals in the African, European, Indian and East Asian populations and found none carrying the polyadenylation mutation alone. However, the N-glycosylation mutation could occur independently. Its frequency varied from 0.01 in Indians, 0.06 in Europeans, 0.21 in East Asians to 0.32 in Africans. The frequencies of both mutations occurring together ranged from almost non-existent in the Africans and East Asians, to 0.075 in the Europeans and 0.125 in the Indians. These frequencies were significantly different among populations. Haplotype analysis among homozygous pseudodeficiency individuals and eight multi-generation families with six polymorphic enzymes showed that, of the five haplotypes found in the general population, only one was linked to the double mutations. Alleles among the four populations with only the N-glycosylation mutation also supported linkage to the same haplotype except in some Europeans whose alleles were discordant. These results are consistent with the hypothesis that the N-glycosylation mutation may be a recurrent event among the Europeans but first occurred in an ancestral allele before the emergence of modern Homo sapiens from Africa at ∼100 000–200 000 years ago. Subsequently, the polyadenylation mutation occurred in this ancient allele with the N-glycosylation mutation, an event that likely took place after the divergence between the European and East Asian lineages. Received: 23 December 1996 / Accepted: 21 July 1997     

A common point mutation in the tyrosine hydroxylase gene in autosomal recessive L-DOPA-responsive dystonia in the Dutch population

This report concerns one new mutation in the tyrosine hydroxylase (TH) gene in three patients originating from three unrelated Dutch families with autosomal recessive L-DOPA-responsive dystonia (DRD). In this study, all exons of the TH gene were amplified by the polymerase chain reaction and subjected to analyses by single-strand conformation polymorphism. An aberrant migration pattern was observed for exon 6 of the TH gene in all patients. Direct sequencing of the coding region of exon 6 revealed the presence of one novel missense mutation. An a698g transition resulted in the substitution of the evolutionary conserved arginine 233 by a histidine (R233H). All patients were homozygous for the mutation. This new mutation in the TH gene was confirmed by restriction enzyme analysis with the restriction enzyme HhaI. Thus, a high proportion of defective TH alleles may be R233H in The Netherlands. Received: 25 July 1997 / Accepted: 10 February 1998     

中国北方人苯丙氨酸羟化酶基因外显子7内新突变的鉴定

应用ＰＣＲ－单链构象多态性分析及ＤＮＡ直接测序,对４５例中国北方苯丙酮尿症（ＰＫＵ）患者苯丙氨酸羟化酶（ＰＡＨ）基因外显子７内突变进行了鉴定。共检出６种错义突变及一种静止突变：Ｒ２４３Ｑ．Ｒ４１Ｈ,Ｇ２４７Ｖ．Ｌ２４９Ｈ．Ｐ２５４Ｉ．Ｇ２５７Ｖ和Ｖ２４５Ｖ。经与国际ＰＡＨ基因突变数据库比较,确认Ｇ２５７Ｖ．Ｐ２５４Ｉ和Ｌ２４９Ｈ为国际上首次发现的突变。结果揭示,中国人与其他种族及中国北方与南方人群ＰＡＨ突变特点不同。明确了中国北方人群中ＰＡＨ基因外显子７基因突变分布,有助于提高ＰＫＵ的基因诊断率,对基因的起源、进化研究有参考价值     

Genetic evidence for functional interactions between TolC and AcrA proteins of a major antibiotic efflux pump of Escherichia coli

Genetic data have suggested that TolC, AcrA and AcrB constitute a major antibiotic efflux system in Escherichia coli. Through reversion analysis of an unstable and antibiotic-sensitive TolC mutant (TolCP246R,S350C), we isolated extragenic suppressors that mapped within the acrRAB loci. DNA sequence analysis revealed that 18 isolates contained 10 different missense mutations within the acrA gene, whereas a single isolate had a missense mutation within the acrR gene, which codes for the acrAB repressor. Besides reversing the hypersensitivity phenotype of TolCP246R,S350C, AcrA and AcrR alterations elevated the mutant TolC protein level, thus indicating that the mechanism of suppression involves the stabilization of an unstable mutant TolC protein. Eight of the 10 AcrA alterations were clustered in the 202-265 region of the mature protein, whereas the other two suppressors affected residues 30 and 146. Based on the recently solved crystal structure of MexA, an AcrA counterpart from Pseudomonas aeruginosa, the regions encompassing residues 30 and 202-265 constitute the alpha+beta-domain of AcrA (MexA), whereas that of 146 form the alpha-domain. The data suggest that residues of these two AcrA domains either directly or indirectly influence interactions with TolC. Curiously, the stability of three mutant AcrA proteins, bearing an L222Q, L222R or P265R substitution, became dependent on the presence of either wild-type or mutant TolC. This dependence of the mutant AcrA proteins on TolC further supported the notion of a direct physical interaction between these two proteins. Because a mutation in acrR or acrAB expression from a multicopy plasmid also suppressed the TolCP246R,S350C defects, it indicated that wild-type AcrA when produced in high levels presumably establishes similar interactions with the mutant TolC protein as do the suppressor forms of AcrA produced from the chromosomal copy. The AcrA-mediated suppression of mutant TolC phenotypes and the stabilization of mutant TolC protein were dependent on AcrB, reflecting the existence of a functional complex between TolC and AcrAB in vivo.     

Multiple mutations are responsible for the high frequency of metachromatic leukodystrophy in a small geographic area.

Metachromatic leukodystrophy is a lysosomal storage disorder caused by the deficiency of arylsulfatase A. The disease occurs panethnically, with an estimated frequency of 1/40,000. Metachromatic leukodystrophy was found to be more frequent among Arabs living in two restricted areas in Israel. Ten families with affected children have been found, three in the Jerusalem region and seven in a small area in lower Galilee. Whereas all patients from the Jerusalem region are homozygous for a frequent mutant arylsulfatase A allele, five different mutations were found in the families from lower Galilee. In patients of Muslim Arab origin, we have found a G86-->D, a S96-->L, and a Q190-->H substitution. Two different defective arylsulfatase A alleles, characterized by a T274-->M and a R370-->W substitution, respectively, have been found among the Christian Arab patients. All mutations were introduced into the wild-type arylsulfatase A cDNA. No enzyme activity could be expressed from the mutagenized cDNAs after transfection into heterologous cells. In all instances, the patients were found to be homozygous for the mutations, and four of the five mutations occurred on different haplotypes. The clustering of this rare lysosomal storage disease in a small geographic area usually suggests a founder effect, so the finding of five different mutations is surprising.