UMLS:C0002736 - FACTA Search

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Query: UMLS:C0002736 (amyotrophic lateral sclerosis)
19,048 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We analyzed mutant superoxide dismutase-1 (SOD-1) in erythrocytes from patients with familial amyotrophic lateral sclerosis (FALS) by using ion exchange chromatography and HPLC/electrospray ionization mass spectrometry and were able to divide mutant SOD-1 proteins into a stable form including G37R and H46R, and an unstable form including I149T and a two base pair deletion mutant. Each mutant sample showed abnormal copper peaks in different chromatographic fractions without relation to SOD-1 activities. In addition, thioredoxin, known as an antioxidant molecule, was markedly increased in the stable form but not in the unstable form. These results suggest the presence of different pathways leading to motor neuron death between stable and unstable mutants.
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PMID:Stability of mutant superoxide dismutase-1 associated with familial amyotrophic lateral sclerosis determines the manner of copper release and induction of thioredoxin in erythrocytes. 942 58

Saccharomyces cerevisiae Lys7p was proposed to be the enzyme catalyzing the dehydratation of homocitrate to cis-homoaconitate, the second step of the lysine biosynthetic pathway. In this communication we provide evidence that Lys7p is involved in oxidative stress protection. Cells deleted for the LYS7 gene displayed, in addition to lysine auxotrophy, methionine auxotrophy, sensitivity to superoxide generating drugs and light irradiation, and diminution of calcineurin activity. The SOD1 gene encoding the Cu/Zn-superoxide dismutase was expressed in strains lacking Lys7p, and although Sodlp was produced in normal amounts no detectable enzyme activity was found. In contrast, the mitochondrial Mn-superoxide dismutase activity did not seem to be impaired. lys7 cells exhibited a normal uptake of Cu from growth medium. The Cu/Zn-superoxide dismutase activity was restored by addition of Cu (but not by addition of other metallic cations) to the growth medium or to cellular extracts, suggesting a lack of Cu2+ at the active site. These results render it necessary to reconsider the role of the Lys7p. Its involvement in Cu metabolism and oxidative-stress protection, and the possibility of a human equivalent in amyotrophic lateral sclerosis are discussed.
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PMID:The Saccharomyces cerevisiae LYS7 gene is involved in oxidative stress protection. 949 44

Copper-zinc superoxide dismutase (CuZn-SOD) is believed to play a major role in the first line of antioxidant defense by catalyzing the dismutation of superoxide anion radicals to form hydrogen peroxide and molecular oxygen. Recent studies have shown that missense mutations in this gene contribute, evidently through a gain-of-function mechanism, to about 20% of familial amyotrophic lateral sclerosis. To define further the physiologic role of this enzyme, a model of mice deficient in this enzyme was generated using gene targeting technology. Mice lacking this enzyme were apparently healthy and displayed no increased sensitivity to hyperoxia. However, they exhibited a pronounced susceptibility to paraquat toxicity. Most surprisingly, female homozygous knock-out mice showed a markedly reduced fertility compared with that of wild-type and heterozygous knock-out mice. Further studies revealed that although these mice ovulated and conceived normally, they exhibited a marked increase in embryonic lethality. These data, for the first time, suggest a role of oxygen free radicals in causing abnormality of female reproduction in mammals.
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PMID:Reduced fertility in female mice lacking copper-zinc superoxide dismutase. 951 86

The X-ray crystal structure of a human copper/zinc superoxide dismutase mutant (G37R CuZnSOD) found in some patients with the inherited form of Lou Gehrig's disease (FALS) has been determined to 1.9 angstroms resolution. The two SOD subunits have distinct environments in the crystal and are different in structure at their copper binding sites. One subunit (subunit[intact]) shows a four-coordinate ligand geometry of the copper ion, whereas the other subunit (subunit[broken]) shows a three-coordinate geometry of the copper ion. Also, subunit(intact) displays higher atomic displacement parameters for backbone atoms ((B) = 30 +/- 10 angstroms2) than subunit(broken) ((B) = 24 +/- 11 angstroms2). This structure is the first CuZnSOD to show large differences between the two subunits. Factors that may contribute to these differences are discussed and a possible link of a looser structure to FALS is suggested.
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PMID:Subunit asymmetry in the three-dimensional structure of a human CuZnSOD mutant found in familial amyotrophic lateral sclerosis. 954 85

Inactivation of copper- and zinc-containing superoxide dismutase (Cu,ZnSOD) by H2O2 is the consequence of several sequential reactions: reduction of the active site Cu(II) to Cu(I) by H2O2; oxidation of the Cu(I) by a second H2O2, thus generating a powerful oxidant, which may be Cu(I)O or Cu(II)OH or Cu(III); and finally oxidation of one of the histidines in the ligand field, causing loss of SOD activity. Three familial amyotrophic lateral sclerosis (FALS)-associated mutant Cu,ZnSODs, i.e., E100G, G93A, and G93R, did not differ from the control enzyme in susceptibility to inactivation by H2O2. It thus appears that an increased peroxidase activity of the FALS-associated Cu,ZnSOD variants might not be a factor in the development of this disease. This leaves the loss of Zn, and the consequent increase in peroxidase activity, or in nitration activity, as a viable explanation (J. P. Crow et al., 1997, J. Neurochem. 69, 1936-1944), among other possibilities.
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PMID:The familial amyotrophic lateral sclerosis-associated amino acid substitutions E100G, G93A, and G93R do not influence the rate of inactivation of copper- and zinc-containing superoxide dismutase by H2O2. 958 11

Mutations in Cu, Zn superoxide dismutase (SOD1) cause the neurodegenerative disease familial amyotrophic lateral sclerosis from an as-yet-unidentified toxic property(ies). Analysis in Saccharomyces cerevisiae of a broad range of human familial amyotrophic lateral sclerosis-linked SOD1 mutants (A4V, G37R, G41D, H46R, H48Q, G85R, G93C, and I113T) reveals one property common to these mutants (including two at residues that coordinate the catalytic copper): Each does indeed bind copper and scavenge oxygen-free radicals in vivo. Neither decreased copper binding nor decreased superoxide scavenging activity is a property shared by all mutants. The demonstration that shows that all mutants tested do bind copper under physiologic conditions supports a mechanism of SOD1 mutant-mediated disease arising from aberrant copper-mediated chemistry catalyzed by less tightly folded (and hence less constrained) mutant enzymes. The mutant enzymes also are shown to acquire the catalytic copper in vivo through the action of CCS, a specific copper chaperone for SOD1, which in turn suggests that a search for inhibitors of this SOD1 copper chaperone may represent a therapeutic avenue.
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PMID:Chaperone-facilitated copper binding is a property common to several classes of familial amyotrophic lateral sclerosis-linked superoxide dismutase mutants. 960 Sep 70

Superoxide dismutase 1 (SOD1), a ubiquitously expressed enzyme, detoxifies superoxide radicals and participates in copper homeostasis. Mutations in this enzyme have been linked to a subset of autosomal dominant cases of familial amyotrophic lateral sclerosis (FALS), a disorder characterized by selective degeneration of motor neurons. Transgenic mice expressing FALS mutant human (Hu) SOD1 at high levels develop a motor neuron disease, indicating that mutant Hu SOD1 gains properties that are particularly toxic to motor neurons. In this report, we demonstrate that transgenic mice expressing Hu SOD1 with the G37R FALS mutation, but not mice expressing wild-type enzyme, develop focal increases in immunoreactivity in the proximal axons of spinal motor neurons. This SOD1 immunoreactivity and immunoreactivity to hypophosphorylated neurofilament H epitopes are found adjacent to small vacuoles in axons. Using metabolic radiolabeling methods, we show that mutant G37R HuSOD1 as well as endogenous mouse SOD1 are transported anterograde in slow component b in motor and sensory axons of the sciatic nerve. Together, these findings suggest that anterogradely transported mutant SOD1 may act locally to damage motor axons.
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PMID:Axonal transport of mutant superoxide dismutase 1 and focal axonal abnormalities in the proximal axons of transgenic mice. 970 85

Copper/zinc superoxide dismutase (SOD1) and manganese superoxide dismutase (SOD2) are the two major intracellular enzymes which inactivate superoxide radicals. SOD1 is present in both cytoplasmic and nuclear compartments whereas SOD2 is localized to mitochondria. Both enzymes are expressed in multiple tissues as well as ovaries of several species including humans and rodents. Dominant mutations in SOD1 are associated with amyotrophic lateral sclerosis. We have previously demonstrated that SOD2-deficient mice die within three weeks of birth due to oxidative mitochondrial injury in central nervous system neurons and cardiac myocytes. In this report, we demonstrate that female homozygous mutant mice lacking SOD1 can survive to the adult stage but are subfertile. Whereas breeding of 5 SOD1 heterozygote females produced an average of 1.0 litter/month with 8.6 offspring/litter (n = 31 litters), only 11 of 16 SOD1 homozygote mice over a 2-6 month period became pregnant averaging 0.23 litters/month with an average litter size of 2.7 (n = 21 litters). Histological analysis of the ovaries from SOD1-deficient mice often reveals many primary and small antral follicles but few corpora lutea. In addition, ovaries from postnatal SOD2-deficient mice, transplanted to the bursa of wild-type hosts, show all stages of folliculogenesis including corpora lutea and can give rise to viable offspring. These studies support an important role of SOD1 in female reproductive function and suggest that SOD2 is not essential for ovarian function.
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PMID:Ovarian function in superoxide dismutase 1 and 2 knockout mice. 972 58

To determine whether specific antibodies are present in PD, we used an enzyme-linked immunosorbant assay (ELISA) that identifies increased immunoglobulin (IgG) levels towards a synthetic substrate prepared by incubating ovalbumin with dopamine and copper sulfate. Altered absorption spectrum and specific chemical detection demonstrated quinone modification of the ovalbumin. This modified protein was demonstrated to react with serial dilutions of PD sera. A threshold dilution of 1:500 was subsequently used to screen sera from patients with PD (n = 21), amyotrophic lateral sclerosis (n = 7), Alzheimer's disease (n = 7) and other neurological disease controls (n = 7). The assay produced a positive result in 7/21 PD patients and 0/21 disease controls (P < 0.02, Kruskal-Wallis test). Further testing of sera from untreated PD patients (n = 6) identified one positive sample. Thus, a subset of Parkinson's disease (PD) patients has immunoglobulin (IgG) to ovalbumin modified by dopamine oxidation. The presence of antibody reactivity to quinone-modified proteins could contribute to or amplify the inflammatory response in PD.
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PMID:Antibodies from patients with Parkinson's disease react with protein modified by dopamine oxidation. 972 26

Dominantly inherited mutations in the gene encoding copper/zinc superoxide dismutase (SOD1) result in the fatal motor neuron disease familial amyotrophic lateral sclerosis (FALS). These mutations confer a gain-of-function to SOD1 with neuronal degeneration resulting from enhanced free radical generating activity of the copper present in the mutant enzyme. The delivery of copper to SOD1 is mediated through a soluble factor identified as the copper chaperone for SOD1 (CCS). Amino acid sequence alignment of SOD1 and CCS reveals a striking homology with conservation of the amino acids essential for mediating SOD1 homodimerization. Here we demonstrate that CCS and SOD1 directly interact in vitro and in vivo and that this interaction is mediated via the homologous domains in each protein. Importantly, CCS interacts not only with wild-type SOD1 but also with SOD1 containing the common missense mutations resulting in FALS. Our findings therefore reveal a common mechanism whereby different SOD1 FALS mutants may result in neuronal injury and suggest a novel therapeutic approach in patients affected by this fatal disease.
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PMID:The copper chaperone CCS directly interacts with copper/zinc superoxide dismutase. 972 62

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