Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0002736 (amyotrophic lateral sclerosis)
 19,048 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Transgenic overexpression of Cu(+2)/Zn(+2) superoxide dismutase 1 (SOD1) harboring an amyotrophic lateral sclerosis (ALS)-linked familial genetic mutation (SOD1(G93A)) in a Sprague-Dawley rat results in ALS-like motor neuron disease. Motor neuron disease in these rats depended on high levels of mutant SOD1 expression, increasing from 8-fold over endogenous SOD1 in the spinal cord of young presymptomatic rats to 16-fold in end-stage animals. Disease onset in these rats was early, approximately 115 days, and disease progression was very rapid thereafter with affected rats reaching end stage on average within 11 days. Pathological abnormalities included vacuoles initially in the lumbar spinal cord and subsequently in more cervical areas, along with inclusion bodies that stained for SOD1, Hsp70, neurofilaments, and ubiquitin. Vacuolization and gliosis were evident before clinical onset of disease and before motor neuron death in the spinal cord and brainstem. Focal loss of the EAAT2 glutamate transporter in the ventral horn of the spinal cord coincided with gliosis, but appeared before motor neuron/axon degeneration. At end-stage disease, gliosis increased and EAAT2 loss in the ventral horn exceeded 90%, suggesting a role for this protein in the events leading to cell death in ALS. These transgenic rats provide a valuable resource to pursue experimentation and therapeutic development, currently difficult or impossible to perform with existing ALS transgenic mice.
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PMID:Focal loss of the glutamate transporter EAAT2 in a transgenic rat model of SOD1 mutant-mediated amyotrophic lateral sclerosis (ALS). 1181 50

Mutations in the cytosolic enzyme, superoxide dismutase 1, have been identified as the cause of motor neuron disease in a subset of cases of familial amyotrophic lateral sclerosis. It has been postulated that the injurious property of mutant enzyme resides in its propensity to aggregate or its propensity to catalyze deleterious, copper-mediated, chemistries. Aggregates of SOD1 have been identified, histologically, in neurons and astroglia of the spinal cords of SOD1-linked FALS patients and in transgenic mice that express these mutant proteins. In the present study, we have employed a technique used in detecting and quantifying aggregates of mutant huntingtin (cellulose acetate filtration) to examine the molecular characteristics of mutant SOD1 in three previously characterized transgenic mouse models of FALS. We show that the brains and spinal cords of these mice accumulate mutant SOD1 complexes that can be trapped by cellulose acetate filtration. The relative abundance of these structures increases dramatically with age. Although expressed to the same level in nonnervous tissues, mutant SOD1 was not found in high molecular weight structures. We conclude that some aspect of the biology of neural tissues (in a setting of declining motor neuron function) predisposes to the accumulation of high molecular weight complexes of mutant SOD1.
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PMID:High molecular weight complexes of mutant superoxide dismutase 1: age-dependent and tissue-specific accumulation. 1189 67

The neutrophil oxidative burst reaction differentiates ALR/Lt mice, known for an unusual systemic elevation of antioxidant defenses, from ALS/Lt mice, a related strain known for reduced ability to withstand oxidative stress. Neutrophils from marrow of ALS mice produced a normal neutrophil oxidative burst following phorbol ester stimulation. In contrast, ALR mice exhibited a markedly suppressed superoxide burst. F1 progeny from reciprocal outcrosses between ALR and ALS mice exhibited an intermediate burst level, higher than ALR but significantly lower than ALS. To elucidate the genetic basis for this strain difference, F1 mice were backcrossed to ALS mice, and marrow neutrophils isolated from the progeny were phenotyped for oxidative burst capacity. A genome-wide sweep using polymorphic markers distinguishing the two parental strains was performed to map the trait. A 1:1 phenotypic distribution was observed, and a locus (Suppressor of superoxide production, Susp) controlling this phenotype was mapped to Chromosome 3 near D3Mit241 at 33.1 cM. This locus probably represents an important regulatory element in the overall ALR strain resistance to oxidative stress, since diminished ability to mount a neutrophil burst in backcross segregants correlated with elevated hepatic superoxide dismutase 1 (SOD1) activity, an ALR strain characteristic.
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PMID:Genetic control of neutrophil superoxide production in diabetes-resistant ALR/Lt mice. 1193

Mutations in the copper/zinc superoxide dismutase 1 (SOD-1) gene are found in approximately 20% of patients with familial amyotrophic lateral sclerosis (FALS), or amyotrophic lateral sclerosis 1. Here we describe a 25-year-old male patient who died from FALS after a rapid disease course of 11 mo. Sequencing of the SOD-1 gene revealed a heterozygous T-->G exchange at position 1513 within exon 5, coding for a V-->G substitution at position 148 of the mature protein. Genetic analysis of this family revealed the same mutation in both his healthy 35-year-old sister and his mother, who did not develop the disease before age 54 years. Screening for candidate modifier genes that might be responsible for the early onset and severe course of the disease in the 25-year-old patient revealed an additional homozygous mutation of the CNTF gene not found in his yet unaffected sister. hSOD-1G93A mice were crossbred with CNTF(-/-) mice and were investigated with respect to disease onset and duration, to test the hypothesis that CNTF acts as a candidate modifier gene in FALS with mutations in the SOD-1 gene. Such hSOD-1G93A/CNTF-deficient mice develop motoneuron disease at a significantly earlier stage than hSOD-1G93A/CNTF-wild-type mice. Linkage analysis revealed that the SOD-1 gene was solely responsible for the disease. However, disease onset as a quantitative trait was regulated by the allelic constitution at the CNTF locus. In addition, patients with sporadic amyotrophic lateral sclerosis who had a homozygous CNTF gene defect showed significantly earlier disease onset but did not show a significant difference in disease duration. Thus, we conclude that CNTF acts as a modifier gene that leads to early onset of disease in patients with FALS who have SOD-1 mutations, in patients with sporadic amyotrophic lateral sclerosis, and in the hSOD-1G93A mouse model.
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PMID:Early onset of severe familial amyotrophic lateral sclerosis with a SOD-1 mutation: potential impact of CNTF as a candidate modifier gene. 1195 Nov 78

Transgenic mice expressing high levels of familial amyotrophic lateral sclerosis (FALS)-associated mutant superoxide dismutase 1 (SOD1) under the control of a human SOD1 minigene (hMg) accumulate mutant protein ubiquitously and develop motoneuron disease. However, restricted expression of SOD1 mutants in neurons apparently does not cause motor impairments in mice. Here, we investigated the possible pathogenic roles of mutant SOD1 accumulation in motoneurons. First, we used a Thy1 expression cassette to drive high constitutive expression of transgene in postnatal mouse neurons, including upper and lower motoneurons. Second, we expressed human (h) SOD1(G93A) and hSOD1(G85R) as transgenes (i.e., two SOD1 mutants with aggressive pathogenic properties in inducing FALS). Third, in addition to clinical signs of disease, we monitored early signs of disease onset and pathogenesis, including muscle innervation, astrogliosis in the spinal cord, and accumulation of ubiquitinated deposits in motoneurons and astrocytes. We report that high-level expression and accumulation of the mutant proteins in neurons failed to produce any detectable sign of pathology or disease in these transgenic mice. Crossing hMg-SOD1(G93A) mice (Gurney et al., 1994) with Thy1-SOD1(G93A) mice produced double-transgenic mice with spinal cord SOD1(G93A) levels that were approximately twofold higher than in the hMg-SOD1(G93A) single transgenics but did not affect the onset or progression of pathology or motoneuron disease. The accumulation of mutant SOD1 in postnatal motoneurons is thus not sufficient and probably also not critical to induce or accelerate motoneuron disease in FALS mice. The pathogenic process in FALS may involve non-neuronal cells, and selective vulnerability of motoneurons to this process may lead to motoneuron pathology and disease.
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PMID:Accumulation of SOD1 mutants in postnatal motoneurons does not cause motoneuron pathology or motoneuron disease. 1207 79

Mutations in Cu/Zn superoxide dismutase 1 (SOD1) have been linked to dominantly inherited forms of amyotrophic lateral sclerosis (FALS). To test the hypothesis that the toxicity of mutant SOD1 originates in Cu(2+)-mediated formation of toxic radicals, we generated transgenic mice that express human SOD1 that encodes disease-linked mutations at two of the four histidine residues that are crucial for the coordinated binding of copper (H46R/H48Q). We demonstrate that mice expressing this mutant, which possesses little or no superoxide scavenging activity, develop motor neuron disease. Hence, mutations in SOD1 that disrupt the copper-binding site do not eliminate toxicity. We note that the pathology of the H46R/H48Q mice is dominated by fibrillar (Thioflavin-S-positive) inclusions and that similar inclusions were evident in mouse models that express the G37R, G85R, and G93A variants of human SOD1. Overall, our data are consistent with the hypothesis that the aberrant folding/aggregation of mutant SOD1 is a prominent feature in the pathogenesis of motor neuron disease.
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PMID:Fibrillar inclusions and motor neuron degeneration in transgenic mice expressing superoxide dismutase 1 with a disrupted copper-binding site. 1212 51

Amyotrophic lateral sclerosis (ALS) is a fatal neurodegenerative disease characterized by a progressive loss of motoneurons and degeneration of motor axons. We show that overexpression of hepatocyte growth factor (HGF) in the nervous system attenuates motoneuron death and axonal degeneration and prolongs the life span of transgenic mice overexpressing mutated Cu2+/Zn2+ superoxide dismutase 1. HGF prevented induction of caspase-1 and inducible nitric oxide synthase (iNOS) in motoneurons and retained the levels of the glial-specific glutamate transporter (excitatory amino acid transporter 2/glutamate transporter 1) in reactive astrocytes. We propose that HGF may be the first example of an endogenous growth factor that can alleviate the symptoms of ALS by direct neurotrophic activities on motoneurons and indirect activities on glial cells, presumably favoring a reduction in glutamatergic neurotoxicity.
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PMID:Overexpression of HGF retards disease progression and prolongs life span in a transgenic mouse model of ALS. 1215 33

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).
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PMID:S100A6 overexpression within astrocytes associated with impaired axons from both ALS mouse model and human patients. 1215 88

Mutations in the superoxide dismutase 1 (SOD1) gene cause the degeneration of motor neurons in familial amyotrophic lateral sclerosis (FALS). An apoptotic process including caspase-1 and -3 has been shown to participate in the pathogenesis of FALS transgenic (Tg) mouse model. Here we report that IAP proteins, potent inhibitors of apoptosis, are involved in the FALS Tg mouse pathologic process. The levels of X-linked inhibitor of apoptosis protein (XIAP) mRNA and protein were significantly decreased in the spinal cord of symptomatic G93A-SOD1 Tg mice compared with littermates. In contrast, the levels of cIAP-1 mRNA and protein were increased in symptomatic G93A-SOD1 Tg mice, whereas the levels of cIAP-2 mRNA and protein were unchanged. In situ hybridization showed that the expression of XIAP was remarkably reduced in the motor neurons of Tg mice, and the expression of cIAP-1 was strongly increased in the reactive astrocytes of Tg mice. Overexpression of XIAP markedly inhibited the cell death and caspase-3 activity in the neuro2a cells expressing mutant SOD1. Deletional mutant analysis revealed that the N-terminal domain of XIAP, the BIR1-2 domains, was essential for this inhibitory activity. These results suggest that XIAP plays a role in the apoptotic mechanism in the progression of disease in mutant SOD1 Tg mice and holds therapeutic possibilities for FALS.
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PMID:X-Linked inhibitor of apoptosis protein is involved in mutant SOD1-mediated neuronal degeneration. 1215 81

Mutations of the superoxide dismutase 1 (SOD1) gene cause familial amyotrophic lateral sclerosis (FALS). Intracytoplasmic aggregate formation consisting of mutant SOD1 is the histological hallmark of FALS. Since a previous report revealed that Hsp70 reduced aggregate formation and cell death in a cell model of FALS, here we examined the combined effects of Hsp70 and its cofactor, Hsp40, on a cell model of FALS. The combination of Hsp70 and Hsp40 reduced intracytoplasmic aggregates and markedly improved neurite outgrowth. They also prevented cell death to a relatively lesser extent. Neurite outgrowth was recognized almost exclusively in the cells without intracytoplasmic aggregates. Hsp70 and Hsp40 were upregulated in cells expressing mutant SOD1, and were colocalized with intracytoplasmic aggregates of mutant SOD1. These findings suggest that heat shock proteins (HSPs) promote neurite outgrowth by suppressing intracytoplasmic aggregate formation and restoring cellular dysfunctions. This is the first demonstration that overexpression of HSPs improved neurite outgrowth as it suppressed intracytoplasmic aggregate formation and cell death in a cultured neuronal cell model of FALS. These findings may provide a basis for the utilization of HSPs in developing a treatment for FALS.
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PMID:Hsp70 and Hsp40 improve neurite outgrowth and suppress intracytoplasmic aggregate formation in cultured neuronal cells expressing mutant SOD1. 1221 95


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