Gaucher disease in Spanish patients: Analysis of eight mutations

Gaucher disease is particularly prevalent among Ashkenazi Jews; thus most studies have been reported on this ethnic group. We present the first data on Spanish patients with Gaucher disease and provide one of the first reports on a fairly well defined, large, non-Jewish population. Eight mutations were analyzed in 35 patients, with different clinical subtypes, by restriction enzyme digestion or allelespecific oligonucleotide (ASO) hybridization, after PCR amplification of genomic DNA. Analysis of the eight mutations allowed identification of 77.2% of the disease alleles, N370S and L444P alone accounting for 70%. Mutation N370S, carried by 31 alleles (44.3%), appeared to be the most prevalent in the Spanish population. The frequency of this mutation and of the N370S/N370S genotype is closer to those described for Ashkenazi Jews than to the frequencies found in other non-Jewish populations. Mutation L444P, the second most abundant mutation, occurred in 25.7% of the disease alleles. Four alleles carrying mutation D409H (5.7%) were detected in patients of different clinical expression and one RecNciI allele in a type I patient. Mutations 84GG, IVS2 + l, R463C, and RecTL were also screened but were not found in any of our patients. © 1995 Wiley-Liss, Inc.     

Mutation analysis of an Ashkenazi Jewish family with Gaucher disease in three successive generations

Seven members of an Ashkenazi Jewish family with Gaucher disease in 3 successive generations were tested for the presence of the 2 common mutations known to occur in the glucocerebrosidase gene. Genomic DNA from blood or skin fibroblasts of relatives was amplified by using the PCR technique and individual mutations identified by oligonucleotides specific to the mutated sequences. Four individuals were homozygous for a mutation at amino acid 370 (370 mutation) known to occur only in type 1 disease. The other 3 affected relatives were compound heterozygotes for this mutation and for a mutation at amino acid 444 (NciI mutation) which, in the homozygous state, is associated with neurological disease. Clinical severity was more marked in the compound heterozygotes than in the homozygotes. Since the mutation is present in Ashkenazim, molecular diagnosis in families which carry the NciI mutation should prove useful in assessing their risk of the neurologic forms of Gaucher disease.     

Glucocerebrosidase mutations are not found in association with LRRK2 G2019S in subjects with parkinsonism

Alteration G2019S in the leucine-rich repeat kinase 2 gene (LRRK2) has been identified in several populations of patients with parkinsonism, including Ashkenazi Jewish subjects with Parkinson disease. Mutations in glucocerebrosidase (GBA), the enzyme deficient in Gaucher disease, are also identified at an increased frequency among Parkinson probands, including those of Ashkenazi Jewish ancestry. A Taqman Assay-by-Design SNP genotyping strategy was utilized to establish whether G2019S was found in association with GBA mutations. Among 37 subjects with parkinsonism who were heterozygous for a GBA mutation, none carried G2019S. Furthermore, G2019S was not found in 18 patients with Gaucher disease who developed parkinsonian manifestations and 11 other Gaucher probands with parkinsonism in a first degree relative. Among 45 patients with Gaucher disease without a history of parkinsonism, one G2019S carrier was found. These findings suggest that GBA and LRRK2 mutations are discrete risk factors for parkinsonism in both Ashkenazi Jewish and non-Jewish subjects.     

Mutation analysis of Gaucher disease using dot‐blood samples on FTA® filter paper

FTA^® filter papers were used as an effective means of blood cell collection, genomic DNA processing, and delivery. Minute blood samples (<1 μL) were collected onto the filters via a simple lateral prick to the patient's finger, circumventing the need for intravenous blood puncture. Collected samples, which are stable at room temperature for several years, were subsequently sent through the postal system to the diagnostic laboratory, bypassing the stringent requirements of courier delivery. Using this method, we performed restriction fragment length polymorphism (RFLP) and nucleotide sequence analysis on prevalent mutations among Canadian and Chinese Gaucher disease patients. Of the 12 alleles (six patients) analyzed, 42% (5/12) have the N370S mutation and 58% (7/12) the L444P mutation, the two most common alleles found among Jewish and non‐Jewish Gaucher disease patients. Uniquely, a Chinese Gaucher disease patient was found to have an N370S mutation. Although the presence of the N370S mutation is regarded as common in other ethnic groups, previous to this report it had not been noted in an individual of Asian descent. PvuII polymorphism analysis showed that the N370S mutation found in the Chinese patient was linked to the Pv1.1⁻ polymorphism, as has been previously seen in the Jewish population. The use of FTA^® filter paper facilitates access of samples to diagnostic centers, and therefore provides an effective means of performing population‐based mutational analysis of Gaucher disease internationally. Am. J. Med. Genet. 94:417–420, 2000. © 2000 Wiley‐Liss, Inc.     

A deleterious mutation in the LOXHD1 gene causes autosomal recessive hearing loss in Ashkenazi Jews

Autosomal recessive nonsyndromic sensorineural hearing loss (ARNSHL) in Ashkenazi Jews, is mainly caused by mutations in the GJB2 and GJB6 genes. Here we describe a novel homozygous mutation of the LOXHD1 gene resulting in a premature stop codon (R1572X) in nine patients of Ashkenazi Jewish origin who had severe-profound congenital non-progressive ARNSHL and benefited from cochlear implants. Upon screening for the mutation among 719 anonymous Ashkenazi-Jews we detected four carriers, indicating a carrier rate of 1:180 Ashkenazi Jews. This is the second reported mutation in the LOXHD1 gene, and its homozygous presence in two of 39 Ashkenazi Jewish families with congenital ARNSHL suggest that it could account for some 5% of the familial cases in this community.     

A Mutation Analysis of the Phenylalanine Hydroxylase (PAH) Gene in the Israeli Population

Hyperphenylalaninemia (HPA) is a group of diseases characterized by a persistent elevation of phenylalanine levels in tissues and biological fluids. The most frequent form is phenylalanine hydroxylase deficiency, causing phenylketonuria (PKU). Among 159 Israeli patients (Jews, Muslim and Christian Arabs and Druze) with HPA, in whom at least one of the mutations was characterized, a total of 43 different mutations were detected, including seven novel ones. PKU was very rare among Ashkenazi Jews and relatively frequent among Jews from Yemen, the Caucasian Mountains, Bukhara and Tunisia. The mutations responsible for the high frequency were: exon3del (Yemenite Jews), L48S (Tunisian Jews) and E178G, P281L and L48S (Jews from the Caucasian Mountains and Bukhara). Among the non‐Jewish Israeli citizens, the disease was relatively frequent in the Negev and in the Nazareth vicinity, and in many localities a unique mutation was detected, often in a single family. While marked genetic heterogeneity was observed in the Arab and Jewish populations, only one mutation A300S, was frequent in all of the communities. Several of the other frequent mutations were shared by the non‐Ashkenazi Jews and Arabs; none were mutual to Ashkenazi Jews and Arabs.     

The molecular characterization of Gaucher disease in South Africa

DNA from 29 southern African Gaucher disease patients was analyzed for five common Gaucher disease mutations: 1226G, 1448C, 84GG, IVS2 + 1 and 1504T. The origins of the patients were as follows: 14 Ashkenazi Jews; 6 Gentile Caucasoids; 8 Negroids; and one of mixed ancestry. The 1226G allele accounted for 80% of disease alleles in the Jewish patients, 50% of alleles in the Gentile Caucasoid patients and was absent from the Negroid patients. The 1448C allele was present in both the Jewish (1 of 24 alleles) and Negroid patients (3 of 16 alleles). Single-strand conformation polymorphism analysis was successfully used to detect mutation 1226G. This system also revealed the presence of mutation 1297T in a Jewish patient and a novel point mutation, 1277T, in an Afrikaans-speaking Caucasoid patient. Screening of 360 unrelated, healthy Ashkenazi Jewish volunteers to estimate the frequency of disease alleles in the local population led to the detection of 17 carriers: 16 possessed the 1226G allele (frequency = 0.0222), and one the 1297T allele (frequency = 0.0014). Using these results, together with the fact that only 92% of "Gaucher alleles" would be detected in this study, we estimate the disease carrier frequency in the Ashkenazim of South Africa to be 0.05, or approximately 1:20. A reliable carrier screening programme can now be offered to the local Jewish community. The majority of the disease alleles in the two Gentile groups remain uncharacterized.     

A novel mutation in the HEXA gene specific to Tay-Sachs disease carriers of Jewish Iraqi origin

An increased frequency of carriers of 1:140, as defined by reduced hexosaminidase A (HexA) activity, was observed among Iraqi Jews participating in the Tay-Sachs disease (TSD) carrier detection program. Prior to this finding, TSD among Jews had been restricted to those of Eastern European (Ashkenazi) and Moroccan descent with carrier frequencies of 1:29 and 1:110 for Jews of Ashkenazi and Moroccan extraction, respectively. A general, pan-ethnic frequency of approximately 1:280 has been observed among other Jewish Israeli populations. Analysis of 48 DNA samples from Iraqi Jews suspected, by enzymatic assay, to be carriers revealed a total of five mutations, one of which was novel. In nine carriers (19%), a known mutation typical to either Ashkenazi or Moroccan Jews was identified. DeltaF304/ 305 was detected in four individuals, and + 1278TATC in three. G269S and R170Q each appeared in a single person. The new mutation, G749T, resulting in a substitution of glycine to valine at position 250 has been found in 19 of the DNA samples (40%). This mutation was not detected among 100 non-carrier, Iraqi Jews and 65 Ashkenazi enzymatically determined carriers. Aside from Ashkenazi and Moroccan Jews, a specific mutation in the HEXA gene has now also been identified in Jews of Iraqi descent.     

Methylenetetrahydrofolate reductase (MTHFR): the incidence of mutations C677T and A1298C in the Ashkenazi Jewish population.

The polymorphic mutation C677T in the gene of MTHFR is considered a risk mutation for spina bifida and vascular disease. Another common mutation on the MTHFR gene, A1298C, has also been described as another risk mutation. We studied the frequencies of these two mutations on DNA samples from healthy Jewish individuals and compared them to the frequency of these mutations in DNA samples obtained from healthy individuals in South Texas. The presence of the C677T allele was determined by PCR and Hinf I digestion, and mutation A1298C by PCR and Mbo II digestion. A total of 310 alleles was examined for C677T in the Ashkenazi samples and 400 alleles in the non-Jewish samples. The rate of C677T among the Ashkenazi Jewish alleles was 47.7% as compared to 28.7% among the alleles from the non-Jewish population. The difference is statistically significant, P < 0.0005. Mutation A1298C was examined in 298 alleles of Jewish individuals and 374 alleles of non-Jewish counterparts from Texas. The rate of the A1298C mutation in the Jewish samples was 27.2% whereas in the non-Jewish was 35%. This was also statistically significant, P < 0.031. No individuals were homozygous for both mutations or were found to be homozygous for one mutation with heterozygosity of the other mutation, and that the C677T and the A1298C alleles did not occur in cis position. This study shows a unique distribution of C677T and the A1298C alleles among the Ashkenazi Jews. In spite of high frequency of C677T mutation, spina bifida is less common among Ashkenazi Jews. Further studies are needed to establish whether the C677T and the A1298C mutations have an impact on vascular disease in the Ashkenazi Jewish population.     

Type 1 Gaucher disease presenting with extensive mandibular lytic lesions: identification and expression of a novel acid beta-glucosidase mutation.

The finding of extensive lytic lesions in the mandible of a 19-year-old Ashkenazi Jewish woman led to the diagnosis of Type 1 Gaucher disease. She had extensive skeletal involvement, marked hepatosplenomegaly, and deficient acid beta-glucosidase activity. Mutation analysis identified heteroallelism for acid beta-glucosidase mutations N370S and P401L, the latter being a novel missense mutation in exon 9. Expression of the P401L allele resulted in an enzyme with a reduced catalytic activity (specific activity based on cross-reacting immunological material approximately 0.21), which was similar to that of the mild N370S mutant enzyme. The expression studies predicted a mild phenotype for the proposita's N370S/P401L genotype which was inconsistent with her severe diffuse skeletal disease and organ involvement. Since lytic mandibular lesions may be complicated by osteomyelitis, pathologic fracture, and tooth loss, regular dental assessments in Type 1 Gaucher patients should be performed.     

Type 1 Gaucher disease presenting with extensive mandibular lytic lesions: Identification and expression of a novel acid β-glucosidase mutation

The finding of extensive lytic lesions in the mandible of a 19-year-old Ashkenazi Jewish woman led to the diagnosis of Type 1 Gaucher disease. She had extensive skeletal involvement, marked hepatosplenomegaly, and deficient acid β-glucosidase activity. Mutation analysis identified heteroallelism for acid β-glucosidase mutations N370S and P401L, the latter being a novel missense mutation in exon 9. Expression of the P401L allele resulted in an enzyme with a reduced catalytic activity (specific activity based on cross-reacting immunological material ∼0.21), which was similar to that of the mild N370S mutant enzyme. The expression studies predicted a mild phenotype for the proposita's N370S/P401L genotype which was inconsistent with her severe diffuse skeletal disease and organ involvement. Since lytic mandibular lesions may be complicated by osteomyelitis, pathologic fracture, and tooth loss, regular dental assessments in Type 1 Gaucher patients should be performed. Am. J. Med. Genet. 84:334–339, 1999. © 1999 Wiley-Liss, Inc.     

Transient expression of wild-type and mutant glucocerebrosidases in hybrid vaccinia expression system

Gaucher disease, the most prevalent lysosomal storage disease, is characterised by a significant phenotypic variation caused by more than 150 mutations. In order to verify pathogenicity of mutations found in the Czech Gaucher population, the vaccinia expression system was used. The wild-type human beta-glucocerebrosidase cDNA and cDNAs carrying the mutations 72delC, 1326insT, 1263del55, S196P, N370S, L444P, G202E, D409H, T369M, L444P+V460V, and D409H+T369M were expressed in Gaucher fibroblast cell line (L444P/S107L), BSC40, and HeLa G cells. The enzymatic activity and immunological reactivity were analysed. Only beta-glucocerebrosidase-deficient fibroblasts were suitable for expression using plasmid transfection. The expressed beta-glucosidase activity of mutant glucocerebrosidases was in good correlation with the presumed severity of the mutations.     

Identification of a 55-bp deletion in the glucocerebrosidase gene in Gaucher disease: phenotypic presentation and implications for mutation detection assays

A 55-bp deletion in exon 9 of the glucocerebrosidase gene was identified in a 28-year-old male affected with Gaucher disease. The diagnosis was established during an evaluation for mild pancytopenia and was confirmed by bone marrow histology and biochemical studies. The patient is of German ancestry. Initial DNA testing indicated homozygosity for the N370S mutation. However, subsequent testing of the patient's parents suggested that the patient and his mother carried a null allele by our assay for N370S. Further molecular studies identified a 55-bp deletion in exon 9 of the glucocerebrosidase gene (g.6767_6822del55). This deletion has been previously reported in a patient with severe Gaucher disease (1), and is present in the glucocerebrosidase pseudogene. In the previously reported case, initial DNA testing also suggested the genotype N370S/N370S, but further mutation studies were undertaken because clinical severity was greater than expected for that genotype. In contrast, our patient has an unusually mild clinical course. Thus, clinical severity cannot be reliably used to determine when to test for the presence of the 55-bp deletion. While the 55-bp deletion is not reported to be common, its actual frequency may be underestimated since it eludes detection by many standard clinical assays for Gaucher disease. This report points out the need to consider this deletion mutation which may cause erroneous interpretation of results in existing assays for the common mutations N370S and L444P. Furthermore, the importance of recommending parental analysis for individuals who test homozygous for autosomal mutations is highlighted.     

Methylenetetrahydrofolate reductase (MTHFR): The incidence of mutations C677T and A1298C in the Ashkenazi Jewish population

The polymorphic mutation C677T in the gene of MTHFR is considered a risk mutation for spina bifida and vascular disease. Another common mutation on the MTHFR gene, A1298C, has also been described as another risk mutation. We studied the frequencies of these two mutations on DNA samples from healthy Jewish individuals and compared them to the frequency of these mutations in DNA samples obtained from healthy individuals in South Texas. The presence of the C677T allele was determined by PCR and Hinf I digestion, and mutation A1298C by PCR and Mbo II digestion. A total of 310 alleles was examined for C677T in the Ashkenazi samples and 400 alleles in the non-Jewish samples. The rate of C677T among the Ashkenazi Jewish alleles was 47.7% as compared to 28.7% among the alleles from the non-Jewish population. The difference is statistically significant, P < 0.0005. Mutation A1298C was examined in 298 alleles of Jewish individuals and 374 alleles of non-Jewish counterparts from Texas. The rate of the A1298C mutation in the Jewish samples was 27.2% whereas in the non-Jewish was 35%. This was also statistically significant, P < 0.031. No individuals were homozygous for both mutations or were found to be homozygous for one mutation with heterozygosity of the other mutation, and that the C677T and the A1298C alleles did not occur in cis position. This study shows a unique distribution of C677T and the A1298C alleles among the Ashkenazi Jews. In spite of high frequency of C677T mutation, spina bifida is less common among Ashkenazi Jews. Further studies are needed to establish whether the C677T and the A1298C mutations have an impact on vascular disease in the Ashkenazi Jewish population. Am. J. Med. Genet. 86:380–384, 1999. © 1999 Wiley-Liss, Inc.     

Gaucher disease: N370S glucocerebrosidase gene frequency in the Portuguese population

In the Portuguese population the most frequent form of Gaucher disease is type 1. The N370S glucocerebrosidase gene mutation accounts for 63% of mutated alleles. The frequency of this mutation was accurately determined in the Portuguese population, which does not present an Ashkenazi Jewish genetic background. A gene frequency of 0.0043, with 95% confidence limits between 0.0023 and 0.0063, was obtained studying the genomic DNA of 2000 blood cards randomly sampled from the national neonatal screening program. On the basis of this frequency a significantly high number of homozygotes for the N370S mutation should be expected in the Portuguese population. This finding supports the idea that the majority of homozygotes for this mutation present a very mild clinical phenotype and remain undiagnosed.     

Expression of mutated glucocerebrosidase alleles in human cells

Gaucher disease is a heterogeneous disease characterized by impaired activity of the lysosomal enzyme glucocerebrosidase. This heterogeneity is attributed to a large number of mutations in the corresponding gene. In order to test the biochemical properties of some mutations prevalent among Israeli populations, the normal human glucocerebrosidase cDNA and cDNAs carrying mutations N370S, L444P, D409H, recTL, recNcil, P415R and 84GG were coupled to the T7 RNA polymerase promoter in a vaccinia virus- derived expression vector (pTM-1). Recombinant viruses were produced and used to infect human tissue culture cells. RNA and protein stability, recognition by anti-glucocerebrosidase monoclonal antibodies and intracellular enzymatic activity were measured. The results demonstrated that the D409H allele directed synthesis of cytoplasmic RNA with decreased stability compared with its normal counterpart or other mutated forms. The D409H and L444P mutated proteins had lower stability than that of their normal counterpart, while the recNcil- mutated protein was more stable. Only glucocerebrosidase forms harboring leucine at position 444 were recognized by the anti- glucocerebrosidase monoclonal antibodies used (8E4 and 2C7). Measurements of enzymatic activity of the recombinant proteins in cells loaded with a fluorescent glucosylceramide demonstrated that the N370S mutated enzyme had activity similar to that of the normal enzyme. The other mutated enzymes exhibited varying degrees of activities, generally corresponding to the phenotypes with which they are associated. The results presented demonstrate the use of the vaccinia virus-derived expression system and of loading living cells with fluorescent substrate as efficient tools for studying mutants in Gaucher disease and in other lysosomal diseases.      

β-Glucocerebrosidase gene mutations in two cohorts of Greek patients with sporadic Parkinson's disease

An increasing number of clinical, neuropathological and experimental evidence linking Gaucher disease and a spectrum of synucleinopathies, including Parkinson's disease (PD) has emerged over the last decade. In particular, several studies, despite individual differences, have shown that mutations in the β-glucocerebrosidase gene (GBA) are a risk factor for PD. Recently a study from Northern Greece has shown a significant overrepresentation of such mutations only in patients with early onset PD. In the present study 8 different GBA mutations covering 87% of the mutations identified in Gaucher disease patients diagnosed in Greece were investigated in two ethnic Greek cohorts of patients with sporadic Parkinson's disease. Cohort A included patients residing and originating from Thessaly, Central Greece (n=100) and cohort B included patients residing and/or originating from the greater area of Athens (n=105). Age-gender-ethnicity matched healthy individuals from the same areas were included as controls (n=206). In patients of cohort A 11 carriers of GBA mutations were identified (5/11:N370S, 2/11:L444P, 2/11: D409H;H255Q, 1/11:H255Q, 1/11D409H) as opposed to 3 in the controls (n=105) (1/3:N370S, 1/3:H255Q, 1/3:Y108C) (p=0.021, OR 4.2, 95% CI=1.14-15.54). In patients of cohort B 10 carriers of GBA mutations were identified (4/10:L444P, 4/10:D409H;H255Q, 1/10:N370S, 1/10:IVS10-1G→A) as opposed to 4 in controls (n=101) (3/4:N370S, 1/4:L444P). However the difference was not statistically significant (p=0.113, OR 2.5, 95% CI=0.77-8.42). In both cohorts, patients with PD harboring a GBA mutation had an earlier onset of symptoms than non-carriers (p=0.034, p=0.004). The overall difference in the number of carriers identified in PD patients and controls was statistically significant (p=0.006; OR 3.24; 95% CI=1.35-7.81). The association was reinforced in the early onset PD patients (EOPD; n=28, p=0.000, OR 11.37; 95% CI=3.73-34.6). In conclusion GBA mutations were identified with increased frequency in both geographical cohorts of patients with sporadic PD studied compared to control individuals, with the difference being statistically significant only in cohort A. An impressive association with EOPD was found and one third of the EOPD patients examined harbored a GBA mutation. Qualitative differences regarding the type of mutations and/or their relative frequencies were observed between cohorts A and B of PD patients. Genetic and/or environmental factors may account for the observed differences.     

Molecular characterisation of type 1 Gaucher disease families and patients: intrafamilial heterogeneity at the clinical level.

Type 1 Gaucher disease families were studied in an attempt to establish a phenotype/genotype correlation in affected persons and also to identify carriers accurately. In the Portuguese type 1 Gaucher patients, screening for mutations N370S, L444P, R463C, and 1066 + 1 G-->A allowed the identification of 85% of the alleles among unrelated patients. A subclinical case with genotype N370S/1066 + 1 G-->A was identified in one family in which there were three other symptomatic sibs. To our knowledge this is the first subclinical case with a genotype other than N370S/N370S. No genotype-phenotype correlation could be established and considerable clinical heterogeneity was found even among sibs with the same genotype. The data collected on the origins of the Gaucher families indicated two areas in northern Portugal where a higher frequency of the disease may be expected to exist.     

Mutation analysis of Gaucher disease patients from Argentina: High prevalence of the RecNciI mutation

Gaucher disease (GD) is caused by a deficiency of β-glucocerebrosidase activity mainly due to mutations in the gene coding for the enzyme. More than 100 mutations have been identified to date and their frequencies have been established in several populations, including Ashkenazi Jews, among whom the disease is particularly prevalent. In order to study the molecular pathology of the disease in patients from Argentina, we conducted a systematic search for mutations in the glucocerebrosidase gene. Genomic DNA from 31 unrelated GD patients was screened for seven previously described mutations: N370S (1226A→G), L444P (1448T→C), D409H (1342G→C), R463C (1504C→T), 1263del55, RecNciI, and RecTL. This allowed the identification of 77.4% of the GD alleles: N370S and RecNciI were the most prevalent mutations found (46.8% and 21% respectively). Southern analysis demonstrated three distinct patterns for the RecNciI alleles. In order to identify the remaining alleles, the full coding region of the gene, all the splice sites, and part of the promoter region were analyzed by single-strand conformational polymorphism analysis (SSCP) after polymerase chain reaction amplification. This extensive screening allowed the identification of 13 different mutations, accounting for 93% of the total number of GD alleles. Three novel missense mutations, I161S (599T→G), G265D (911G→A), and F411I (1348T→A), were detected. Twelve polymorphic sites within the glucocerebrosidase gene are in complete linkage disequilibrium and define two major haplotypes, “−” and “+”. Mutation N370S was always associated with the “−” haplotype, as described in other populations. Interestingly, the RecNciI alleles with the same Southern-blot pattern were always associated with the same haplotype. Am. J. Med. Genet. 80:343–351, 1998. © 1998 Wiley-Liss, Inc.