Neuropathology of familial amyotrophic lateral sclerosis patients with superoxide dismutase 1 gene mutation

More than 60 mutations of the copper/zinc superoxide dismutase 1 (SOD1) gene have been identified. We are aware of 19 reported autopsied cases of familial amyotrophic lateral sclerosis (ALS) linked to these mutations. A review of these cases disclosed remarkable heter-ogenicity of ALS, not only in molecular genetics but also clinicopathologically. However, it is noteworthy that all patients with alanine to valine substitution at codon 4 (A4V) mutation of SOD1 in familial ALS apparently disclose a distinct characteristic phenotype. All these patients manifested a rapid course of progressive muscular atrophy and died less than 1 year after the onset of illness. Microscopic findings were essentially identical in three cases: (i) marked loss of anterior horn neurons and Clarke's nuclei; (ii) the presence of intracytoplasmic Lewy body like hyalin inclusions and cord-like enlargements of the processes in some of the affected neurons. The Lewy body like inclusions were also recognized by antibodies to phos-phorylated neurofilaments protein, ubiquitin, and SOD1. Under electron microscopy, the inclusions consisted of a network of 10 nm neurofilaments intermingled with ill-defined coarse linear structures; (iii) degeneration of spinocerebellar tracts, and middle root zone of the posterior column.     

Transgenic mouse model for familial amyotrophic lateral sclerosis with superoxide dismutase‐1 mutation

Familial amyotrophic lateral sclerosis (ALS) with mutations in the gene for superoxide dismutase‐1 (SOD1) is clinicopathologically reproduced by transgenic mice expressing mutant forms of SOD1 detectable in familial ALS patients. Motor neuron degeneration associated with SOD1 mutation has been thought to result from a novel neurotoxicity of mutant SOD1, but not from a reduction in activity of this enzyme, based on autosomal dominant transmission of SOD1 mutant familial ALS and its transgenic mouse model, clinical severity of the ALS patients independent to enzyme activity, no ALS‐like disease in SOD1 knockout or wild‐type SOD1‐over‐expressing mice, and clinicopathological severity of mutant SOD1 transgenic mice dependent on transgene copy numbers. Proposed mechanisms of motor neuron de‐generation such as oxidative injury, peroxynitrite toxicity, cytoskeletal disorganization, glutamate excitotoxicity, disrupted calcium homeostasis, SOD1 aggregation, car‐bonyl stress and apoptosis have been discussed. Intracy‐toplasmic vacuoles, indicative of increased oxidative damage to the mitochondria and endoplasmic reticulum, in the neuropil and motor neurons appear in high expressors of mutant SOD1 transgenic mice but not in low expressors of the mice or familial ALS patients, suggesting that overexpression of mutant SOD1 in mice may enhance oxidative stress generation from this enzyme. Thus, transgenic mice carrying small transgene copy numbers of mutant SOD1 would provide a beneficial animal model for SOD1 mutant familial ALS. Such a model would contribute to elucidating the pathomechanism of this disease and establishing new therapeutic agents.     

Myelin degeneration induced by mutant superoxide dismutase 1 accumulation promotes amyotrophic lateral sclerosis

Myelin is a specialized membrane that wraps around nerve fibers and is essential for normal axonal conduction in neurons. In the central nervous system, oligodendrocytes are responsible for myelin formation. Recent studies have reported pathological abnormalities in oligodendrocytes in human patients with amyotrophic lateral sclerosis (ALS) and a mouse model of ALS expressing the G93A mutation of the human superoxide dismutase 1 (mtSOD1). However, it is unclear whether oligodendrocyte pathology in ALS represents the primary dysfunction induced by mtSOD1 and how mtSOD1 contributes to oligodendrocyte degeneration and ALS pathogenesis. We analyzed GAL4-VP16-UAS transgenic zebrafish selectively expressing mtSOD1 in mature oligodendrocytes. We observed that mtSOD1 directly induced oligodendrocyte degeneration by disrupting the myelin sheath and downregulating monocarboxylate transporter 1 (MCT1), thereby causing spinal motor neuron degeneration. Pathological changes observed in this transgenic zebrafish were similar to the pathology observed in the SOD1^G93A mouse model of ALS, which is characterized by expression of mtSOD1 in all cells. In addition, oligodendrocyte dysfunction induced by mtSOD1 was associated with anxiety-related behavioral abnormalities, learning impairments, and motor defects in the early symptomatic stage. We also found that treatment with potassium channel inhibitors rescued behavioral abnormalities without rescuing MCT1 expression, suggesting that myelin disruption induces behavioral abnormalities independently of MCT1. These results indicate that mtSOD1-induced dysfunction of mature oligodendrocytes is sufficient to induce motor neuron degeneration, thus informing future therapeutic strategies targeted at oligodendrocytes in ALS.     

Familial amyotrophic lateral sclerosis

The increasing complexity of the pathways implicated in the pathogenesis of familial amyotrophic lateral sclerosis (ALS) has stimulated intensive research in many directions. Genetic analysis of familial ALS has yielded six loci and one disease gene (SOD1), initially suggesting a role for free radicals in the disease process, although the mechanisms through which the mutant exerts toxicity and results in selective motor neuron death remain uncertain. Numerous studies have focused on structural elements of the affected cell, emphasizing the role of neurofilaments and peripherin and their functional disruption in disease. Other topics examined include cellular homeostasis of copper and calcium, particularly in the context of oxidative stress and the processes of protein aggregation, glutamate excitotoxicity, and apoptosis. It has become evident that there is considerable interplay between these mechanisms and, as the role of each is established, a common picture may emerge, enabling the development of more targeted therapies. This study discusses the main areas of investigation and reviews the findings.     

Red cell superoxide dismutase activity in sporadic amyotrophic lateral sclerosis

Specific biologic markers are not available for definitive diagnosis and monitoring of disease progression in sporadic amyotrophic lateral sclerosis (SALS). Oxidative stress plays a role in ALS pathogenesis. The purpose of this study was to determine the association between Cu/Zn superoxide dismutase (SOD1) activity, diagnosis and prognosis. The present study included 25 SALS patients (SALS group; age 51+/-12 years) and 10 healthy subjects (age 45+/-5 years) as a control group. Patients were divided into groups representing four levels of diagnostic certainty of ALS in accordance with the El Escorial Revisited criteria. The disease state was determined using the modified ALS health state scale of Riviere et al. (Arch Neurol 1998:55;526-8). Red-cell SOD1 activity was determined by spectrophotometry. SOD1 activity in red cells was compared statistically with diagnostic criteria and disease state. Red cell SOD1 activity was high in all SALS patients, but there was no significant association between enzyme activity and diagnostic criteria and disease state. In this preliminary study, we did not find any correlation between SOD1 activity level and diagnosis or prognosis. Measured SOD1 activity sometimes supports ALS diagnosis, but it is neither a specific nor a prognostic factor.     

Progressive motor neuron impairment in an animal model of familial amyotrophic lateral sclerosis

Mutations of Cu,Zn superoxide dismutase cause an autosomal dominant form of familial amyotrophic lateral sclerosis. An animal model of the disease has been produced by expressing mutant human SOD1 in transgenic mice (G93A). In order to quantify the dysfunction of the motor unit in transgenic mice, electromyographic recordings were performed during the course of the disease. The first alterations in neuromuscular function appeared between P63 and P90. The deficits became even more striking after P100; compound muscle action potentials in the hindlimb decreased by 80% of initial value. Spontaneous fibrillation potentials were measured in more than 50% of transgenic mice. The number of motor units in the gastrocnemius muscle was progressively reduced over time, down to 18% of the control value at P130. Moreover, distal motor latencies increased after P120. These data suggest that the initial dysfunctions of motor unit are related to a severe motor axonal degeneration, which is followed at later periods by myelin alteration. © 1997 John Wiley & Sons, Inc.     

Familial amyotrophic lateral sclerosis and Cu/Zn superoxide dismutase mutation

Amyotrophic lateral sclerosis (ALS) is a devastating neurodegenerative disorder that involves mainly the motor neuron system. Five to 10 percent of the ALS cases are familial; most others are sporadic. Several mutations in the superoxide dismutase-1 (SOD1) gene have recently been shown to be associated with about 20% of familial ALS patients. The reduced enzyme activity of many mutant SOD1 points to the possibility that a loss-of-function effect of the mutant enzyme is responsible for the pathogenesis of the disease. However, this conflicts with the autosomal dominant inheritance of SOD1 mutation-associated ALS and the normal SOD1 activity in homozygous patients in a SOD1-linked ALS family. Current biochemical investigations have provided evidence that mutant SOD1 may catalyze the peroxynitrite-mediated nitration of protein tyrosine residues, release copper and zinc ions, facilitate apoptosis of neurons and have enhanced peroxidase activity. Immunocytochemical studies demonstrated the presence of intense SOD1 immunoreactivity in Lewy body-like inclusions, which are characteristic features of a certain form of familial ALS with posterior column involvement, in the lower motor neurons of patients in ALS families with different SOD1 mutations. More recently, strains of transgenic mice expressing mutant SOD1 have been established. These mice clinicopathologically develop a motor neuron disease mimicking human ALS with the exception of pronounced intraneuronal vacuolar degeneration. The overexpression of wild-type SOD1 in mice has failed to give rise to the disease. Only one transgene for mutant SOD1 is enough to cause motor neuron degeneration and the severity of clinical course correlates with the transgene copy number. These observations in SOD1-linked familial ALS and its transgenic mouse model suggest a novel neurotoxic function of mutant SOD1.     

铜/锌超氧化物岐化物1突变致肌萎缩侧索硬化一家系分析并文献复习

目的探索一肌萎缩侧索硬化(ALS)家系基因突变位点并进行文献复习。方法对已知常见的ALS致病基因进行检测,进而对国内铜/锌超氧化物岐化物1(SOD1)基因突变型ALS进行文献复习。结果该家系患者平均起病年龄为(37.8±11.6)岁,均以肢体症状起病,平均病程约1.3年,死于呼吸衰竭。该家系SOD1基因4号外显子第305位存在AG突变(D102G)。目前国内报道的SOD1突变基因有26种。起病年龄最早者20岁,最晚者67岁;病程最短者仅1月,最长者达14年。86.4%的患者以肢体症状起病,4.5%以延髓症状起病,7.7%的患者以肢体和延髓症状起病。SOD1基因可表现为完全外显或不完全外显。结论 D102 G为国内首次报道的ALS疾病相关突变。不同SOD1基因突变位点临床症状具有异质性。     

一个肌萎缩侧索硬化家系突变超氧化物歧化酶1相互作用蛋白的酵母双杂交筛选

The present study screened a human fetal brain cDNA library to find the proteins that interact with mutant superoxide dismutase 1 (SOD1) using a yeast two-hybrid system. Using BLAST software, 15 real proteins which interacted with mutant SOD1 were obtained, including 8 known proteins (protein tyrosine-phosphatase non-receptor type 2, TBC1D4, protein kinase family, splicing factor, arginine/serine-rich 2, SRC protein tyrosine kinase Fyn, β-sarcoglycan; glycine receptor α2, micro-tubule associated protein/microtubule affinity-regulating kinase 1, ferritin H chain), and 7 unknown proteins. Results demonstrated interaction of mutant SOD1 with microtubule associated pro-tein/microtubule affinity-regulating kinase 1 and β-sarcoglycan.     

Coexistence of dominant and recessive familial amyotrophic lateral sclerosis with the D90A Cu,Zn superoxide dismutase mutation within the same country

The Cu,Zn superoxide dismutase (Cu,Zn SOD) mutations described in amyotrophic lateral sclerosis (ALS) have, for the most part, a dominant influence. However, while a few cases with a heterozygous D90A mutation have been described in different countries, D90A has been recently proven to be recessively inherited with a common founder effect in Scandinavia. We screened French ALS families for Cu,Zn SOD mutations. The presence of the D90A allele was found in two index-cases, and their families were subsequently studied. In the first family the ALS patients were homozygotes for D90A, while in the second, all ALS patients were heterozygotes. In both families the disease was found to initially involve the lower limbs with slower progression than in sporadic cases, and frequent atypical signs such as paresthesia and urgency of micturition. We determined the D90A allele frequency in controls (n = 200) and sporadic ALS patients (n = 408). No D90A allele was found. This is the first report of coexistence of dominant and recessive families with the D90A Cu,Zn SOD mutation within the same country.     

An immunohistochemical study of the neuronal expression of manganese superoxide dismutase in sporadic amyotrophic lateral sclerosis

Neuronal expression of manganese superoxide dismutase (MnSOD) in sporadic amyotrophic lateral sclerosis (sALS) was investigated by an immunohistochemical method. The brains and spinal cords from 11 patients with sALS and 20 normal controls (NCs) were used, and the following four nuclei (three motor nuclei and one autonomic nucleus) were examined: the oculomotor nucleus; the hypoglossal nucleus; the cervical motor nucleus; and Onuf's nucleus. Serial sections were stained by the Klüver-Barrera (KB) method and with human-MnSOD-specific antibodies. We counted the total number of neurons visible after KB staining and the total number of positive neurons after immunostaining. The average total number of neurons after KB staining was similar in sALS patients and NCs in both the oculomotor nucleus and Onuf's nucleus, but the number in the hypoglossal and cervical motor nuclei was significantly lower in sALS. The ratio of MnSOD-positive neurons to total neurons visible after KB staining, calculated as an index of the expression of MnSOD, was significantly higher in the oculomotor nucleus and Onuf's nucleus, and lower in the hypoglossal nucleus in sALS patients than in NCs. In the cervical motor nucleus, the ratio in sALS patients did not differ from that in NCs. These results suggest that production of toxic superoxide radicals might be increased in sALS, and that neurons that successfully induce the expression of sufficient MnSOD can survive the disease process, while those failing to activate adequate expression of the enzyme succumb to the toxic effects of the radicals and die.     

A clinicopathological study of a patient with familial amyotrophic lateral sclerosis associated with a two base pair deletion in the copper/zinc superoxide dismutase (SOD1) gene

The recognition of mutations in the copper/ zinc superoxide dismutase (SOD1) gene in familial amyotrophic lateral sclerosis (FALS) has been a landmark in ALS research. We report a clinicopathological study of a female patient with FALS showing a two base pair deletion in exon 5 of the SOD1 gene. Her clinical course was rapid and she died 2 years after the onset. The SOD1 activity was down to 30% of the normal level. Western blot analysis did not reveal the mutant protein which was expected to be ∼2.4 kDa smaller than normal SOD1 protein in molecular mass. In contrast to the neuropathological findings of the previously reported cases showing the same mutation, our case was characterized by sparing of the dorsal column and the presence of only a modest number of intracytoplasmic eosinophilic inclusions showing weak or partial immunoreaction for neurofilament and negative reaction for SOD1. Thus, the same mutation in the SOD1 gene does not necessarily induce consistent pathological changes in the central nervous system. Received: 7 March 1997 / Revised, accepted: 9 June 1997     

Golgi apparatus of the motor neurons in patients with amyotrophic lateral sclerosis and in mice models of amyotrophic lateral sclerosis

We examined the Golgi apparatus (GA) of motor neurons of patients with ALS and in mice models of ALS by immunohistological method using antiserum against MG160 and against components of the trans‐Golgi network (TGN46). The GA of half of the remaining spinal cord motor neurons of patients with sporadic ALS showed fragmentation, where the GA were dispersed or fragmented into numerous small, isolated elements. The GA of Betz cells in sporadic ALS were fragmented similar to that of anterior horn cells, and the GA of spinal cord motor neurons of those with familial ALS and of those with ALS with basophilic inclusions were fragmented or diminished. The GA in the majority of the motor neurons contained Bunina bodies, basophilic inclusions and superoxide dismutase 1 (SOD1)‐positive aggregates were fragmented. The motor neurons in transgenic mice expressing G93A mutation of the SOD1 gene showed the fragmentation of the GA months before the onset of paralysis. These findings suggest that the fragmentation of GA may be related to the neuronal degeneration in patients with ALS.     

Manganese-containing superoxide dismutase signal sequence polymorphism associated with sporadic motor neuron disease

An alanin-9valin (Ala-9Val) polymorphism in the mitochondrial targeting sequence of manganese-containing superoxide dismutase (Mn-SOD) has recently been described. We studied this polymorphism in 72 Swedish patients with sporadic motor neuron diseases (MND) and controls using an oligonucleotide ligation assay. There were significant differences in genotype between MND patients and controls (P = 0.025), and between male and female MND patients (P = 0.009). Individuals homozygous for the Ala allele had a higher risk for MND [odds ratio, 2.9; 95% confidence interval (CI), 1.3-6.6], which was increased when including only females in the analysis (odds ratio, 5.0; 95% CI, 1.8-14.0). In classical amyotrophic lateral sclerosis, the odds ratio was 3.8 (95% CI, 1.3-10.0), and 5. 5 (95% CI, 1.5-19.9) when including only females. The results suggest that mutations influencing the cellular allocation of Mn-SOD may be a risk factor in MND, especially in females, and that MND may be a disease of misdistribution of the superoxide dismutase enzymes.     

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.     

Epidemiology of amyotrophic lateral sclerosis in Hordaland county, western Norway

The incidence, prevalence and prognosis of amyotrophic lateral sclerosis (ALS) in the county of Hordaland, western Norway were determined for the years 1978 through 1988. The average annual incidence rate was 1.60 per 100,000 population with a male to female ratio of 1.26 (95% confidence interval: 0.76-2.09). The maximal age-specific annual incidence was 8.12 per 100,000 and occurred in the age-group between 61 and 65 years. The prevalence of ALS was 3.67 per 100,000 on December 31, 1988. The average age at the onset of the disease was 60.9 years ranging from 34 to 82 years of age. Survival was studied with life table techniques. Median survival from the onset of symptoms was 28.0 months overall. In patients with bulbar onset the median survival was 24.0 months whereas it was 40 months in patients with spinal onset of disease (log rank test, P = 0.0004). The difference in survival between ALS with bulbar or spinal onset was not explained by age or sex differences in the two groups.     

家族性ALS的临床特征及基因分析

目的探讨肌萎缩侧索硬化症(ALS)家系的临床特点及SOD1基因突变规律。方法详细分析一个FALS大家系的临床特征、肌电图改变、遗传方式,用PCR-SSCP法检测SOD1基因的突变。结果该家系有6代、237人,其中13人患病,8人死于ALS,具典型ALS症状,但起病前有较长一段时间肌肉纤颤期。PCR-SSCP法检测SOD1基因未发现突变,为非SOD1基因突变的ALS家系。结论(1)对于家族性肌跳的患者,宜动态观察其肌电图的改变,注重临床随访;(2)该家系可能存在一个非SOD1基因的、新的FALS致病基因。     

中国家族性肌萎缩侧索硬化患者超氧化物歧化酶1基因突变与临床表型

目的 通过对43个中国家族性肌萎缩侧索硬化(FALS)家系先证者进行铜、锌超氧化物歧化酶(SOD)1基因突变检测,分析其与临床表型的关系,探讨中国FAIS患者SOD1基因的突变分布谱及其与临床表型之间的关联性.方法 采集2008-2011年确诊的43个FALS家系的临床资料.利用PCR技术和直接测序方法,检测先证者SOD1基因突变,进一步与临床表型做关联分析.结果 43个FALS家系均呈常染色体显性遗传,先证者男女比例为1∶0.6,起病年龄(48.1±11.8)岁,上肢起病23例,占53.5％,下肢起病18例,占41.9％,延髓部起病2例,占4.6％.在10例先证者中共发现9种SOD1突变类型,其中2种为未报道的新突变.9种突变类型中8种为错义突变,1种为缺失突变.SOD1基因突变总检出率为23.3％.结论 中国FALS患者SOD1基因突变类型由原来的11种增加到19种.具有SOD1突变的FALS患者以下运动神经元损害为主.大多数SOD1突变的临床表型在不同的家系甚至同一家系中变异均较大.