Molecular analysis of the superoxide dismutase 1 gene in Spanish patients with sporadic or familial amyotrophic lateral sclerosis

We performed a genetic analysis of the Cu/Zn superoxide dismutase gene (SOD1) in Spanish patients with sporadic or familial amyotrophic lateral sclerosis (ALS). We found mutations in 2 of 11 families (18%) with ALS. In addition, 1 of the 87 sporadic ALS patients studied harbored a mutation in the same gene. We identified G37R in exon 2 of the SOD1 gene in 1 family. Another patient, with sporadic ALS, showed a novel N65S in exon 3. In addition, we found a novel I112M in exon 4 in another family. Our data highlight the genetic heterogeneity of patients with ALS harboring mutations in the SOD1 gene and confirm that families with autosomal dominant inheritance of the trait, regardless of their ethnic background, are more likely to carry mutations in such a gene.     

A novel SOD1 mutation in a young amyotrophic lateral sclerosis patient with a very slowly progressive clinical course

Approximately 10% of amyotrophic lateral sclerosis (ALS) cases are familial, and the Cu/Zn superoxide dismutase (SOD1) gene mutation accounts for 20% of them. More than 100 SOD1 mutations have been described, some with peculiar phenotypes. Moreover, mutations in the SOD1 gene have been described in apparently sporadic ALS cases. We report a new mutation (D11Y) in the Cu/Zn superoxide dismutase gene in a patient with ALS and an unusually slow disease progression. Muscle Nerve, 2010     

Sporadic ALS associated with the D90A Cu,Zn superoxide dismutase mutation in Russia

Twenty blood samples from Russian patients (Moscow) with idiopathic motor neurone disease were analysed for mutations in the Cu,Zn superoxide dismutase (Cu,Zn SOD) gene. Two patients (10%) with the amyotrophic lateral sclerosis (ALS) form of the disease were found to have a disease-related mutation. One patient appears to have autosomal recessive adult-onset ALS associated with homozygosity for D90A and presents the characteristic phenotype of very slowly ascending paresis with both lower and upper motor neurone signs. Another patient, heterozygous for D90A, presents ALS with lumbar onset and rapid progression. This is the first report of a Cu,Zn SOD mutation in ALS in Russia.     

CuZn-superoxide dismutase in D90A heterozygotes from recessive and dominant ALS pedigrees

Mutations in CuZn-superoxide dismutase (CuZn-SOD) have been linked to ALS. In most cases ALS is inherited as a dominant trait and there is marked reduction in CuZn-SOD activity in samples from the patients. The D90A mutation, however, mostly causes ALS as a recessive trait and shows near normal CuZn-SOD activity. A few familial and sporadic ALS cases heterozygous for the D90A mutation have also been found. Haplotype analysis of both types of D90A families has suggested that all recessive cases share a common founder and may carry a protective factor located close to the D90A mutant CuZn-SOD locus. To search for effects of a putative protective factor we analysed erythrocytes from D90A heterozygous individuals for SOD activity by a direct assay, subunit composition by immunoblotting, and zymogram pattern formed by isoelectric focusing and SOD staining. Included were heterozygotes from 17 recessive families, and from 2 dominant families and 4 apparently sporadic cases. The CuZn-SOD activity in the recessive and dominant groups was found to be equal, and 95% of controls. The ratio between mutant and wildtype subunits was likewise equal and 0.8:1 in both groups. The zymograms revealed multiple bands representing homo- and heterodimers. There were, however, no differences between the groups in patterns or in ratios between the molecular forms. In conclusion we find no evidence from analyses in erythrocytes that the putative protective factor in recessive families acts by simply downregulating the synthesis or altering the molecular structure or turnover of the mutant enzyme.     

Mutational analysis of the Cu/Zn superoxide dismutase gene in a Catalan ALS population: should all sporadic ALS cases also be screened for SOD1?

BACKGROUND: SOD1 gene mutations are the most common identified cause of ALS, accounting for approximately 20% of familial ALS cases and around 4% of sporadic ALS cases. However, the prevalence of SOD1 varies in different ethnic groups. No previous epidemiological studies have been carried out in Catalonia. OBJECTIVE: To determine the prevalence of SOD1 gene mutations in a Catalan ALS population, and to analyze the genotype-phenotype relationship. MATERIALS AND METHODS: 30 different FALS pedigrees and 94 sporadic ALS patients were screened for SOD1 mutations using direct sequence analysis. RESULTS: Five of the 30 FALS pedigrees (16.6%) carried a SOD1 mutant. The mutations identified in this group were G37R, D76V, S105L, I112M and N139H. Four SOD1 mutants (4.25%) were found in the sporadic ALS group (SALS). The overall frequency (FALS plus SALS) of SOD1 mutations in our series was 6.45%. In the SALS group, D90A was identified in a patient presenting the typical Scandinavian phenotype. A 53-year-old woman with no family history of ALS carried the N139H mutation. Two unrelated sporadic ALS cases carried the A140A SOD1 mutant. CONCLUSIONS: The prevalence of the SOD1 mutation in FALS in Catalonia is similar to levels in other Mediterranean countries, but lower than those in reports studying the Belgian, Japanese, and Scottish populations. The prevalence of the SOD1 mutation was 4.25% in patients with no family history of ALS. These results may have significant repercussions on genetic counseling, and screening for the SOD1 mutation in sporadic ALS cases must therefore be considered.     

Compound heterozygous D90A and D96N SOD1 mutations in a recessive amyotrophic lateral sclerosis family

We describe a French amyotrophic lateral sclerosis (ALS) family with two distinct mutations in the Cu/Zn superoxide dismutase (SOD1) gene. The D90A mutation has been well described and clearly shown to cause recessive ALS. In this family, affected individuals are heterozygous for the D90A mutation and also carry a single copy of a novel SOD1 mutation, D96N. We propose that in this family both mutations are required for the development of disease.     

Superoxide dismutase gene mutations in Italian patients with familial and sporadic amyotrophic lateral sclerosis: identification of three novel missense mutations

Amyotrophic lateral sclerosis (ALS) is a progressive neurodegenerative disorder affecting motor neurons. The majority of the patients are sporadic cases (SALS), while 5-10% of the patients have a family history of ALS (familial ALS or FALS). Mutations in the gene coding for cytoplasmic Cu/Zn superoxide dismutase (SOD1) have been identified in about 20% of FALS cases. We found SOD1-gene mutations in five of 34 unrelated FALS, and in two of 44 SALS patients. Three FALS patients carried the previously described A4V (two cases) and L84F mutations (one case), while two FALS patients carried new missense mutations: a G12R substitution in exon 1, and a F45C substitution in exon 2, respectively. The newly identified mutations were both associated with a slowly progressive disease course. Two SALS patients carried the homozygous D90A and the heterozygous I113T mutation, respectively. In addition, in one SALS patient we identified an A95T amino acid substitution, that is apparently a non-pathogenic SOD1 variant. Our study increases the number of ALS-associated SOD1 gene mutations.     

The IVS1 +319 t>a of SOD1 gene is not an ALS causing mutation.

Amyotrophic lateral sclerosis (ALS) is caused by mutations in the gene for Cu/Zn superoxide dismutase (SOD1) in 10% of familial and sporadic cases. During the SOD1 analysis of 9 FALS and 121 SALS, in only one sporadic case we found the exonic mutation N19S; in 15 SALS patients we found a 319t>a variation in IVS1 sequence, at 108 bp upstream from exon 2. This variation has an unusually high frequency of 11% and is always in linkage disequilibrium with a described polymorphism in IVS3, +34a>c.The 319t>a variation is classified in two different public databases, HGMD and The ALS Online Database, as a splicing mutation and not as a polymorphism. The unusually high frequency of this mutation in our patients prompted us to determinate its frequency in 130 age- and gender- matched healthy controls and in 54 patients with Alzheimer's disease. We found again linkage disequilibrium with the polymorphism in intron 3, and the frequency of 11% and 7.8%, respectively.These results strongly support the idea that the IVS1 +319 t>a alone is not an ALS causing mutation, and that special care must be taken in the interpretation of data from mutations databases for correct genetic counselling.     

ALS with variable phenotypes in a six-generation family caused by leu144phe mutation in the SOD1 gene.

BACKGROUND: Amyotrophic lateral sclerosis (ALS) is a progressive neurological disorder. The mutations of Cu/Zn superoxide dismutase gene (SOD1) are responsible for familial ALS. We investigated a large family of Istro-Rumanian origin characterized by an autosomal dominant ALS occurring in 18 cases (three of which are still alive) throughout six generations. METHODS: Clinical data were available for nine patients from the 2nd generation onward, among which one contained the neuropathological details. The mean age at onset of the disease (+/-SD) was 57.3+/-8.9 years (range 49-72), while the duration of the disease spanned over a length of time equal to 4.9+/-1.96 years (range 1.5-7). The analysis of the coding region of SOD1 was done by PCR and direct sequencing. The SOD1 activity was measured by using the red and mononuclear cells belonging to three of the patients. RESULTS: The leu144phe mutation of SOD1 was identified in four patients while a normal sequence was found in five healthy related subjects. The molecular defect was responsible for a decrease in SOD1 activity. Most of patients in this family presented clinical manifestations of ALS (in particular, the lower limb onset variant) not as severe as typical ALS caused by other SOD1 mutations. However, one patient suffering from hyperthyroidism for 17 years, showed an early onset and a rapidly progressing ALS coupled with dementia. CONCLUSIONS: We described a large family with a relatively not severe phenotype of ALS (due to a leu144phe SOD1 mutation) that was compromised in one patient by a concomitant hyperthyroidism.     

Superoxide dismutase in amyotrophic lateral sclerosis patients homozygous for the D90A mutation

The most common of the amyotrophic lateral sclerosis (ALS)-associated superoxide dismutase-1 (SOD1) mutations, D90A, differs from others in its high structural stability and by the existence of both recessive and dominant inheritance. Here SOD1 in CNS and peripheral organs from five ALS patients homozygous for D90A were compared to controls. In most areas, including ventral horns, there were no significant differences in SOD1 activities and Western blotting patterns between controls and D90A cases. The SOD1 activities in areas vulnerable to mutant SOD1s, ventral horns and precentral gyrus were intermediate among CNS areas and much lower than in kidney and liver. Thus, the vulnerability of motor areas is not explained by high SOD1 content. The findings argue against the idea of expression-reducing protective factors being present near the D90A locus in recessive pedigrees. The similarity to wild-type SOD1 prompts speculations on the involvement of the latter in sporadic ALS.     

Heterozygous SOD1 D90A mutation presenting as slowly progressive predominant upper motor neuron amyotrophic lateral sclerosis

Of all the SOD1 gene mutations described, uniquely the D90A mutation has been identified in recessive, dominant, and apparently sporadic cases. We describe a patient with a sporadic form of amyotrophic lateral sclerosis (ALS) in which a heterozygous A > C exchange at position 272 in the SOD1 gene was detected. This mutation results in an amino acid substitution of alanine for aspartate at position 90 (D90A). The patient had a 12-year history of disease characterized by slow progression. Clinical examination at last follow-up revealed predominant upper motor neuron (p-UMN) involvement, with atrophies only in distal muscle of upper limbs. Electrophysiological examination revealed lower and upper motor neuron involvement. Family history was negative for neurological disease. This report shows that D90A in heterozygous state may cause p-UMN phenotype with very slow progression.     

Identification of two novel mutations in the Cu/Zn superoxide dismutase gene with familial amyotrophic lateral sclerosis: mass spectrometric and genomic analyses

Amyotrophic lateral sclerosis (ALS) is a progressive neurodegenerative disorder affecting motor neurons. The majority of patients are sporadic cases, while 5-10% of the patients have a family history of ALS (fALS). Mutations in the gene that encodes cytoplasmic Cu/Zn superoxide dismutase (SOD1) have been identified in about 25% of fALS cases. Although the precise pathogenesis of ALS is still unknown, experimental studies including animal models suggest that fALS is caused by the toxic gain-of-function of the SOD1 mutant. We have analyzed not only SOD1 gene mutation by genomic sequencing, but also SOD1 mutant protein by liquid chromatography-electrospray ionization-mass spectrometry (LC-ESI-MS). We analyzed 33 fALS patients and found 10 mutations in SOD1 gene, in which two were novel: Asp101His substitution in exon 4 and Gly141Glu substitution in exon 5. Here, we present their mass spectrometric protein analyses and clinical features.     

中国家族性肌萎缩侧索硬化患者超氧化物歧化酶1基因突变分析

目的 肌萎缩侧索硬化(ALS)是上、下运动神经元退变引起的一种进行性致死性疾病,家族性ALS占10%～20%,铜锌SOD1基因突变存在于20%的家族性患者和少数散发性患者,某些突变还具有地域分布和特殊临床表型的规律性.我们旨在分析我国3个家族性ALS家系SOD1基因突变特点,并与不同国家和地区SOD1突变比较,分析其临床表型的特征性.方法 提取患者外周血基因组DNA,采用SOD1基因的5对引物对其5个外显子进行PCR扩增,产物直接测序.归纳整理患者临床表型资料,进行表型-基因型关联分析.结果 家系1中SOD1基因外显子2的H46R杂合突变,即CAT→CGT,使得46位由编码组氨酸变为编码精氨酸.先证者48岁,女性,43岁起病,主要表现为肢体无力和萎缩.家系中其他3例患者首发症状与先证者相似,病情进展均较缓慢,生存期较长.家系2中先证者20岁,男性,临床表现为延髓性麻痹,病程进展快速,生存期1年,位于3号外显子的杂合突变,即G72C突变.其父亲也出现同样的突变,但无ALS临床表现,其姑姑也有类似病史.家系3中5例患者5号外显子的E133V杂合突变,先证者中年起病,病程逐渐进展,生存期5年.结论 H46R的杂合突变国内未见报道,国外日本人曾多次报道及巴基斯坦有1个家系报道,欧美均未见报道,推测此突变可能为亚裔所特有.G72C突变的家系,临床表型为较早发病,病程进展迅速,生存期1年,突变外显率低导致家族成员不发病,常被诊断为散发病例,因此对于散发性患者及其家族成员同时检测SOD1基因突变十分必要.E133V突变的家系为国际首先报道.     

SOD1 mutations in amyotrophic lateral sclerosis

Amyotrophic Lateral Sclerosis (ALS), the most common form among motoneuron diseases, is characterized by a progressive neurodegenerative process involving motor neurons in the motor cortex, brain stem and spinal cord. Sporadic (SALS) accounts for the majority of patients but in about 10% of ALS cases the disease is inherited (FALS), usually as an autosomal dominant trait.In the present study we show the results of a referred based multicenter study on the distribution of SOD1 gene mutations in the largest cohort of Italian ALS patients described so far. Two hundred and sixty-four patients (39 FALS and 225 SALS) of Italian origin were studied. In 7 out of 39 FALS patients we found the following SOD1 gene mutations: i) a new G12R missense mutation in exon 1, found in a patient with a slowly progressive disease course; ii) the G41S mutation, in four unrelated patients with rapidly progressive course complicated with cognitive decline in two of them; iii) the L114F mutation, in a patient with a slowly progressive phenotype; iv) the D90A mutation, in a heterozygous patient with atypical phenotype. In addition, in one SALS patient a previously reported synonymous variant S59S was identified. In 17 (3 FALS and 14 SALS) out of 264 patients (6.4 %) the polymorphism A-->C at position 34 of intron 3 (IVS3: + 34 A-->C) was found, and in one FALS patient a novel variant IVS3 + 62 T-->C was identified.The frequency of SOD1 gene mutations (17.9 %) in FALS cases was comparable with that found in other surveys with a similar sample size of ALS cases. No SOD1 gene mutations have been identified in SALS cases. Within FALS cases, The most frequent mutation was the G41S identified in four FALS.     

Comparison of the clinical and cognitive features of genetically positive ALS patients from the largest tertiary center in Serbia

Discovering novel mutations in C9orf72, FUS, ANG, and TDP-43 genes in ALS patients arises necessities for better clinical characterizations of these subjects. The aim is to determine clinical and cognitive profile of genetically positive Serbian ALS patients. 241 ALS patients were included in the study (17 familiar and 224 apparently sporadic). The following genes were analyzed: SOD1, C9orf72, ANG, FUS, and TDP-43. An extensive battery of classic neuropsychological tests was used in 27 ALS patients (22 SOD1 positive and 5 SOD1 negative) and 82 healthy controls (HCs). Overall 37 (15.4%) of 241 ALS patients carried mutations in tested genes—among 17 familiar ALS patients 16 (94.1%) were positive and among 224 apparently sporadic 21 (9.4%) had causative mutation. Mutations in SOD1 gene were the most common, representing 27 (73.0%) of all genetically positive ALS patients. The main clinical characteristics of SOD1 positive patients were: spinal onset in lower extremities, common sphincter and sensitive disturbances, and dysexecutive syndrome. Within SOD1 positive patients, we noticed somewhat earlier onset in patients with A145G, sensory and sphincter disturbances were dominant in patients with L144F, while D90A patients had significant sensory involvement. SOD1 negative group consisted of ten (27.0%) patients (six C9orf72, two ANG, one TDP-43, and one patient baring triple FUS, C9orf72 expansion, and ANG variants). Bulbar involvement and more extensive neuropsychological impairment (including executive, visuospatial, and memory difficulties) were the main features of SOD1 negative cohort. Our results suggest that meaningful clinical suspicion of certain ALS genotype might be made based on thorough clinical evaluation of patients.     

S100A6 overexpression within astrocytes associated with impaired axons from both ALS mouse model and human patients

Astrogliosis is one of the earliest pathological changes observed in neurodegenerative diseases in general and in amyotrophic lateral sclerosis (ALS) in particular. ALS is characterized by selective degeneration of motoneurons. There are 2 forms of the disease: sporadic ALS (SALS), comprising 90%-95% of cases, and familial ALS (FALS), comprising 5%-10% of cases. FALS is an age-dependent autosomal dominant disorder in which mutations in the homodimeric enzyme Cu/ Zn superoxide dismutase 1 (SOD1) is linked to the disease. The animal model for this disease is a transgenic mouse expressing the mutated human SOD1(G93A) gene. Here we show by immunohistochemistry and double immunofluorescence that astrocytes located near impaired axons of motoneurons that were selectively programmed to die overexpressed S100A6, a Ca2+/Zn2+ binding protein able to translocate into the nucleus. Transgenic mice overexpressing the mutated human SOD1 gene and patients suffering from SALS showed this selective astrocytic S100A6 expression. For instance, the pyramidal tract could be macroscopically detected on S100A6-labeled spinal cord and brainstem sections from SALS patients. Transgenic mice overexpressing the non-mutated SOD1 gene did not overexpress S100A6, although glial fibrillary associated protein astrogliosis was seen. Although these results do not give any clue about the beneficial or detrimental role played by S100A6, its induction may be assumed to appropriately serve some function(s).     

The neuronal Golgi apparatus is fragmented in transgenic mice expressing a mutant human SOD1, but not in mice expressing the human NF-H gene

Fragmentation of the Golgi apparatus (GA) of motor neurons was first described in sporadic amyotrophic lateral sclerosis (ALS) and later confirmed in transgenic mice expressing the G93A mutation of the gene encoding the enzyme Cu,Zn superoxide dismutase (SOD1(G93A)) found in some cases of familial ALS. In these transgenic mice, however, the fragmentation of the neuronal GA was associated with cytoplasmic and mitochondrial vacuoles not seen in ALS. The present new series of transgenic mice expressing 14-17 trans gene copies of SOD1(G93A), compared to 25 copies in the mice we studied previously, showed consistent fragmentation of the GA of spinal cord motor neurons, axonal swellings, Lewy-like body inclusions in neurons and glia, but none of the cytoplasmic or mitochondrial vacuoles originally reported. Thus, this animal model recapitulates the clinical and most neuropathological findings of sporadic ALS. Neurofilaments (NF) accumulate in axons and, less often, in neuronal perikarya in most cases of sporadic ALS and they have been implicated in its pathogenesis. In order to investigate whether fragmentation of the neuronal GA also occurs in association with accumulation of perikaryal NFs, we studied the organelle in transgenic mice expressing the heavy subunit of human neurofilaments (NF-H) which developed a motor neuronopathy resembling ALS. The neuronal GA of mice expressing NF-H, however, was intact despite massive accumulation of NFs in both perikarya and axons of motor neurons. In contrast, in transgenic mice expressing SOD1(G93A), the GA was fragmented despite the absence of accumulation of perikaryal NFs. These findings suggest that, in transgenic mice with neuronopathies caused by the expression of mutant SOD1(G93A) or the human NF-H, the GA and the perikaryal NFs are independently involved in the pathogenesis. The evidence suggests that the GA plays a central role in the pathogenesis of the vast majority of sporadic ALS and in FALS with SOD1 mutations.     

Allele-specific RNAi selectively silences mutant SOD1 and achieves significant therapeutic benefit in vivo

RNA interference (RNAi) has the potential to treat diseases caused by dominant, gain-of-function type of gene mutations. In these diseases, one allele is mutated and produces a toxic protein, whereas the other allele is normal and performs vital functions. One challenge in the treatment is to specifically inhibit the mutant allele toxicity while maintaining the normal allele function. To test allele-specific silencing in vivo, we made transgenic mice that express an shRNA against mutant Cu, Zn superoxide dismutase gene (SOD1(G93A)), which causes amyotrophic lateral sclerosis (ALS) by a gain of an unknown toxic property. By crossing this transgenic line with mice that express SOD1(G93A) and mice that express wild-type human SOD1, we found that this shRNA specifically silences the mutant, but not the wild-type SOD1. The silencing of the mutant significantly delayed ALS onset and extended survival. Thus, RNAi can achieve allele-specific silencing and therapeutic benefit in vivo.     

Clustering of ALS patients in central Italy due to the occurrence of the L84F SOD1 gene mutation.

OBJECTIVE: To study three new apparently unrelated Italian families with ALS and several sporadic ALS patients living in the same rural area. BACKGROUND: One Italian family with ALS carrying a superoxide dismutase 1 (SOD1) gene mutation (G41S) and no regional ALS clustering has been reported in Italy. METHODS: Genetic analysis was performed by automated and manual sequencing of the SOD1 gene in 13 family members and in 6 of 10 unrelated patients with sporadic cases of ALS living in the same area. The authors also determined SOD1 activity in erythrocytes and lymphocytes. RESULTS: The three families included a total of 28 affected members distributed over six generations. Despite a wide variability in age at onset and disease duration, the clinical pattern is uniform, with onset in the lower limbs, ascending progression, and predominant lower motor neuron involvement in all subjects. Generational anticipation is evident in the last two generations. All familial ALS patients and one of the six sporadic patients carry the same L84F missense point mutation in exon 4 of the SOD1 gene. SOD1 enzyme activity and SOD1 protein levels were not decreased significantly in the L84F patients. CONCLUSION: The ALS patients carrying the L84F mutation derive from a common ancestor. This mutation is responsible for ALS clustering in the area. The L84F mutation does not modify SOD1-specific activity.