Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0026850 (muscular dystrophy)
5,870 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

High mortality and a high incidence of exudative diathesis and muscular dystrophy were observed in chicks fed a diet supplemented with either 800 or 1600 ppm copper. Adding 0.5 ppm selenium to a basal diet containing 0.2 ppm prevented mortality and selenium deficiency signs. Dietary zinc levels of 2100 to 4100 ppm also resulted in high mortality, exudative diathesis, and muscular dystrophy. A selenium supplement of 0.5 ppm completely prevented the deficiency signs and markedly reduced mortality. The results demonstrate that both copper and zinc can induce a selenium deficiency in chicks when a diet relatively low in this element is fed.
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PMID:Precipitation of a selenium deficiency by high dietary levels of copper and zinc. 114 13

Skeletal muscles from healthy dogs and Labrador Retrievers with hereditary muscular dystrophy were examined morphologically and histochemically and were analyzed biochemically for Na+, K+, Ca2+, Mg2+, Zn2+, Cu2+, Cl-, total muscle water, and total neutral lipid content. Flame atomic absorption spectrophotometer was used for elemental quantitation of hydrochloric acid tissue extracts. Muscle samples from dystrophic dogs contained substantially increased concentrations of Na+, Ca2+, Zn2+, Cu2+, and Cl-, and a considerable reduction in the content of K+ and Mg2+ compared with samples from healthy dogs. Total muscle water and total fat content was higher in muscles from dystrophic dogs. Most muscle samples from dystrophic dogs had a type-2 fiber deficiency and an increase in number of fibers with internalized nuclei.
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PMID:Analysis of muscle elements, water, and total lipids from healthy dogs and Labrador retrievers with hereditary muscular dystrophy. 272 11

Zinc has been reported to be important in protein synthesis, collagen crosslinking, membrane structure and function, cellular necrosis, muscle glycolysis, and cardiac dysfunction. As all these processes are affected by muscular dystrophy, we studied the Zn concentrations in the cardiac and skeletal muscles of 7-month-old male dystrophic hamsters with advanced hypertrophic cardiomyopathy. Age- and sex-matched normal hamsters served as controls. Calcium, magnesium, and copper concentrations were also measured in the dystrophic and normal tissues. Flame atomic absorption spectrophotometry was used for mineral quantitation of the nitric acid tissue extracts. Zn concentrations in the myocardium (P less than 0.002), diaphragm (P less than 0.005), and rectus femoris muscles (P less than 0.001) were significantly elevated with concomitant elevations of Ca in dystrophic compared with normal hamsters. Although no appreciable changes in Cu or Mg concentrations were noted in the myocardium, slight depletions of Cu in the dystrophic diaphragm (P less than 0.025) and Mg in the dystrophic rectus femoris (P less than 0.05) were present. The intracellular Zn and Ca accumulations in the cardiac and skeletal muscles of dystrophic hamsters correlated with other dystrophic features such as increased rates of protein synthesis, significant myocardial enlargement, characteristic electrocardiographic and mechanophysiologic abnormalities, and classical histopathologic changes. We hypothesize that Zn2+ may be cotransported with Ca2+ across the cellular membrane or substituted for Ca2+ in certain pathways. These mechanisms may be affected by the high-energy ATP-pump and/or the sodium-potassium exchange system at the cellular level. Our observations suggest a possible pathogenetic involvement of Zn in muscular dystrophy which may be associated with an accelerated effort by the cellular system to repair the damaged cardiac and skeletal muscles.
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PMID:Excessive intracellular zinc accumulation in cardiac and skeletal muscles of dystrophic hamsters. 380 14

Nine children with Duchenne muscular dystrophy were given Sanorex (mazindol), a growth hormone inhibitor, daily for 6 months. There was no significant change in their muscle function, but there was a significant reduction in weight gain and in levels of growth hormone, somatomedin C, hair zinc, serum zinc, and serum LDH. Selenium and glutathione peroxidase in the serum increased significantly. Thirteen other children with growth hormone deficiency had a significant reduction in hair selenium following growth hormone administration. These results show a significant relationship between growth hormone and selenium nutritional status and confirm our previous reports indicating an effect of growth hormone on zinc nutritional status. It is possible that prolonged therapy with a growth hormone inhibitor would attenuate the course and improve the longevity of patients with muscular dystrophy.
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PMID:Growth hormone inhibition causes increased selenium levels in Duchenne muscular dystrophy: a possible new approach to therapy. 649 89

Zinc and taurine were measured in urine in the fasting state and following a 4mg/kg load of taurine in subjects with Friedreich's Ataxia (FA), and healthy controls (C), and subjects with Duchenne type muscular dystrophy (MD). Of the FA, 25% had increased fasting excretion of zinc, and 50% had increased excretion of zinc following the taurine load. The MD subjects all had increased zinc excretion at all times. The increased zinc excretion did not correlate with increased excretion of taurine. As an index of zinc deficiency, uptake of zinc by erythrocytes was measured in all subjects and in heterozygotes for FA. The pattern of uptake was abnormal for FA and heterozygotes. Hair analysis for zinc showed that 10 of the 12 FA subjects had low values. We conclude that significant abnormalities in zinc metabolism exist in some, but not all cases of FA. The evidence available does not permit definition of the cause of these abnormalities, whether zinc deficiency or abnormal zinc transport is the primary factor.
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PMID:Zinc and taurine in Friedreich's ataxia. 650 14

In two separate experiments, 72 crossbred ewes were fed hay, haylage (50% dry matter) and corn diets with ad libitum salt-mineral mixtures (SMM; Exp. 1) or salt (Exp. 2). Calcium phosphates (Ca X P) and(or) zinc (Zn) were added in a 2 X 2 factorial arrangement to salt + trace minerals for ewes 7 mo prepartum through lactation in Exp. 1 and to salt only for ewes 3 mo prepartum through lactation in Exp. 2. The diets fed were estimated to contain 23 and 28 mg Zn/kg dry diet (ppm), respectively, and .08 and .05 ppm Se. Large variations (up to fivefold) were found in SMM intake per month between replicates and from month-to-month within treatment; thus, monthly variations of up to sevenfold occurred in Zn and Se intakes of supplemented groups. There were no significant treatment effects on SMM intake. Small but significant Zn treatment effects were detected for plasma and wool Zn of ewes and lambs, but all values were in the normal range. There was no significant treatment effect on plasma alkaline phosphatase activity. In Exp. 2, erythrocyte glutathione peroxidase (GSH-Px) activity was significantly lower in all treatment groups compared with a Se-supplemented control group but only rare occurrences of subclinical muscular dystrophy were found. There was no significant treatment effect on GSH-Px activity, whole blood Se in ewes and lambs or plasma creatine phosphokinase activity in lambs. These results indicate large animal and seasonal variability in SMM intake and no significant treatment effects of Ca X P on SMM intake or on Zn and Se status. Zinc addition to SMM had no effect on Se status.
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PMID:Effect of calcium phosphates and zinc in salt-mineral mixtures on ad libitum salt-mix intake and on zinc and selenium status of sheep. 652 62

Changes in superoxide dismutase activities in early stages of chronological development were investigated in normal and dystrophic chickens. Both cupro-zinc and manganese superoxide dismutase activities were significantly elevated in the dystrophic chickens studied as early as one week after hatching compared to those in the control. In control chickens, both cupro-zinc and manganese superoxide dismutase activities declined as they grew older. In dystrophic chickens, manganese superoxide dismutase activity declined gradually as they grew older as in the control. However, cupro-zinc superoxide dismutase activity increased until four weeks of age. The latter activity was still twice as high as that of the control at four months of age. Increased activities in superoxide dismutases in early stages of the development suggest presence of increased turnover of active oxygen species from the early stage of the disease in this avian muscular dystrophy. And the distinct time course of cupro-zinc superoxide dismutase activity suggests involvement of active oxygen species in pathogenesis of this disorder.
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PMID:Superoxide dismutase activity in early stages of development in normal and dystrophic chickens. 670 Mar 62

Expansion of (AGC)n repeats has been associated with genetic disorders called triplet-repeat diseases such as Huntington's disease (HD), myotonic muscular dystrophy (DM) and Kennedy's disease. To gain insight into the abnormal behavior of these repeats, we studied their structural properties in supercoiled DNA. Chemical probing revealed that, under physiological salt and pH conditions, Zn2+ or Co2+ ions induce (AGC)n repeats to adopt a novel non-B DNA structure in which all cytosine but none of adenine residues in either strand become unpaired. The minimum size of (AGC)n repeat that could form this structure independently of neighboring sequences is a single unit of double-stranded trinucleotide, 5'AGC3'/5'GCT3'. Other trinucleotide units of the same nucleotide composition, 5'CAG3'/5'CTG3' or 5'GCA3'/5'TGC3', do not form non-B DNA structures. This unusual DNA structural properly adopted by a single 5'AGC3'/5'GCT3' trinucleotide may contribute to expansion of (AGC)n sequences in triplet-repeat diseases.
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PMID:A single trinucleotide, 5'AGC3'/5'GCT3', of the triplet-repeat disease genes confers metal ion-induced non-B DNA structure. 828 11

Oxidative injury underlies the cellular injury and cell death in a variety of disease states. In muscular dystrophies, evidence from in vivo and in vitro studies suggests that muscle degeneration may be secondary to an increased susceptibility to oxidative stress. To address the role of free radical metabolism in the pathogenetic process of muscular dystrophies, we examined the muscle of transgenic mice that overexpress copper/zinc (Cu/Zn) superoxide dismutase. Overexpression of this enzyme can sensitize cells to oxidative injury, and Cu/Zn superoxide dismutase activity was elevated approximately fourfold above control levels in skeletal muscle of the transgenic strain. Examination of serum creatine phosphokinase levels in these mice revealed significant elevations after 2 months of age, indicative of active muscle breakdown. By 8 months of age, there was gross atrophy of the quadriceps muscle, and other hindlimb muscles were variably affected. Histologically, there was evidence of widespread muscle necrosis and regeneration, fiber splitting, and replacement of muscle with adipose and fibrous connective tissue, typical of a muscular dystrophy. Associated with the development of this degeneration was an increase in the levels of lipid peroxidation in the muscle of Cu/Zn superoxide dismutase transgenic mice, highlighting the central role of oxidative injury in this pathogenetic process. These results demonstrate that oxidative damage can be the primary pathogenetic process underlying a muscular dystrophy.
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PMID:Overexpression of copper/zinc superoxide dismutase: a novel cause of murine muscular dystrophy. 1040 94

Two membrane proteins express the antigens that comprise the Kell blood group system. A single antigen, Kx, is carried on XK, a 440-amino acid protein that spans the membrane 10 times, and more than 20 antigens reside on Kell, a 93-kd, type II glycoprotein. XK and Kell are linked, close to the membrane surface, by a single disulfide bond between Kell cysteine 72 and XK cysteine 347. Although primarily expressed in erythroid tissues, Kell and XK are also present in many other tissues. The polymorphic forms of Kell are due to single base mutations that encode different amino acids. Some Kell antigens are highly immunogenic and may cause strong reactions if mismatched blood is transfused and severe fetal anemia in sensitized mothers. Antibodies to KEL1 may suppress erythropoiesis at the progenitor level, leading to fetal anemia. The cellular functions of Kell/XK are complex. Absence of XK, the McLeod phenotype, is associated with acanthocytic red blood cells (RBCs), and with late-onset forms of muscular dystrophy and nerve abnormalities. Kell, by homology, is a member of the neprilysin (M13) family of membrane zinc endopeptidases and it preferentially activates endothelin-3 by specific cleavage of the Trp21-Ile22 bond of big endothelin-3.
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PMID:The Kell blood group system: Kell and XK membrane proteins. 1079 80


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