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)

The purpose of this study was to determine whether the previously reported differences in adenylate cyclase activity between the sarcolemma of normal and dystrophic chick muscles are also found in the SR, to search for a possible relationship between the adenylate cyclase changes and the pathophysiology of dystrophy, and to investigate whether the findings can be extended to Duchenne human muscular dystrophy by studying the adenylate cyclase and ATPase activities of erythrocyte ghosts from DMD patients and carriers. Microsomes were separated by standard techniques from the pectoralis muscles of normal and dystrophic ckeckens of various ages. The microsomal yields were significantly larger in dystrophic muscles. Adenylate cyclase activities in dystrophic microsomes were higher than those in matched controls and increased with the progression of the disease. The ratio between the two rose from one at 2 weeks of age to nine at about 9--10 weeks. Kinetic analyses showed that the ks for MgATP2- was about 40 microM (at 3 mM Mg2+ and 0.3 mM Ca2+) both in normal and dystrophic microsomes, that calcium caused umcompetitive inhibition of the enzyme (Ki = 0.2 mM), that the effect of calcium was noncooperative (Hill coefficient, nH = 1), that calcium did not affect the cooperativity for MgATP2-, and that magnesium competitively removed the calcium inhibition and caused additional, cooperative stimulation of the enzymatic activity (ka = 1.5 mM; NH =2). The major difference between normal and dystrophic adenylate cyclase was a higher enzymatic velocity in the latter, suggesting a larger amount of enzyme. We investigated whether altered cAMP levels may effect calcium accumulation. Calcium uptake measured (in the presence of oxalate) at several ages revealed no difference between normal and dystrophic chickens. The extent of calcium binding was also similar, although the kd for Ca2+ was lower in dystrophic microsomes. Binding was enhanced in the presence of exogenous protein kinase, but the responses of normal and dystrophic tissues were similar. We concluded that the elevation of adenylate cyclase in dystrophy was not related to microsomal calcium accumultion. Ivestigation of the localization of microsomal adenylate cyclase supported this view. Separation of calcium-loaded microsomes on a discontinuous sucrose gradient into four fractions demonstrated that adenylate cyclase activity, measured in the presence of Lubrol-PX and EGTA, was inversely related to calcium-accumulating activity. Na+, K+-ATPase comigrated with adenylate cyclase. Highest specific activities were found in the lightest fraction. These observations were confirmed by histochemical studies. The reaction product from adenylate cyclase activity was present predominantly in the terminal cisternae of the SR. In the context of the literature, our findings suggest that the rises in adenylate cyclase and Na+, K+-ATPase in avian dystrophy are compensatory changes, elicited by a defect in ECC at the calcium release step...
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PMID:Adenylate cyclase in muscular dystrophy. 15 10

The activities of the membrane-bound protein kinases of the human erythrocytes membrane that phosphorylate spectrin, band-3 protein, and phospholipids were compared in patients with myotonic muscular dystrophy and normal age- and sex-matched controls. These activities tended to be lower in the patients, but the differences were not statistically significant. In contrast, the temperature responses (the increase in activity in response to an increase in temperature from 30 degrees C to 37 degrees C) of the spectrin and band-3 protein kinase activities were significantly lower in the patients. Although they do not eliminate an alteration of one of the substrates, these results are consistent with the proposal that differences in erythrocytes from myotonic muscular dystrophy (MyD) patients are due to a membrane lipid change. Cholesterol is unlikely to be the altered lipid, as no difference in membrane cholesterol content was found.
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PMID:Myotonic muscular dystrophy: abnormal temperature response of membrane phosphorylation in erythrocyte membranes. 22 55

In freshly prepared erythrocyte membranes from normal individuals and patients with Duchenne progressive muscular dystrophy the endogenous protein kinase and the cAMP stimulated phosphorylation was identical for the 3 main32P proteins including spectrin (protein band II). Another enzyme, adenylate cyclase, was found unchanged. Altered protein kinase and adenylate cyclase have been reported in this disorder. We have no explanation for these discrepancies.
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PMID:Erythrocyte membrane protein kinase and adenylate cyclase in Duchenne muscular dystrophy. 22 80

A fraction of erythrocyte Band 3 (Mr, 93,000) glycoprotein that demonstrates decreased autophosphorylation in membranes from myotonic muscular dystrophy patients is demonstrated. Sequential affinity chromatography of Triton X-100 solubilized erythrocyte membrane proteins separated three specifically retained glycoprotein fractions on a Ricin Communis I-Sepharose 4B column. One fraction contains a portion of the major sialoglycoprotein (apparent Mr, 78,000) and is specifically eluted from the column by 10 mM NaCl and 100 mM D-galactose (10/100). The two other glycoprotein fractions are eluted by 100 mM NaCl, 10 mM D-galactose (100/10) and 100 mM NaCl, 100 mM D-galactose (100/100). The composition of both fractions contains greater than 95% Band 3 (apparent Mr, 93,000 glycoprotein. The quantities of glycoprotein in each fraction obtained from erythrocytes of myotonic dystrophy patients did not differ from the quantities obtained from control erythrocytes. Following endogenous protein kinase incubations of ghosts with [gamma-32P]ATP, the specific [32P] phosphorylation of the 10/100 and 100/10 fractions are identical. The 100/100 fraction, which makes up approximately 3% of the total erythrocyte membrane protein, demonstrates a different pattern for myotonic dystrophy patients; specific phosphorylation was reduced by 50% relative to activity in control experiments. These findings are consistent with previous experiments that demonstrated decreased autophosphorylation of the glycoprotein portion of Band 3 (Roses & Appel, 1975, J. Membrane Biol 20:51) and are consistent with the autosomal dominant mode of inheritance in this disease.
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PMID:Isolation of an abnormally phosphorylated erythrocyte membrane band 3 glycoprotein from patients with myotonic muscular dystrophy. 44 24

In freshly prepared erythrocyte membranes from normal individuals and from patients with Duchenne progressive muscular dystrophy the endogenous protein kinase and the cAMP stimulated phosphorylation was identical for the three main 32P proteins including spectrin (protein band II). Another enzyme, adenylate cyclase, was found unchanged. Altered protein kinase and adenylate cyclase has been reported in this disorder. We have no explanation for these discrepancies.
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PMID:Protein kinase and adenylate cyclase of erythrocyte membrane from patients with Duchenne muscular dystrophy. 69 36

Component a of the erythrocyte membrane is a specific substrate for endogenous protein kinase activity and its phosphorylation is significantly decreased under assay conditions in myotonic muscular dystrophy (Roses, A.D., and Appel, S.H.J. Membr. Biol 20:51-58 (1975)). We have demonstrated substrate heterogeneity of two fractions of component a separated by concanavalin A (Con-A) sepharose chromatography. The fraction of component a that is retarded by Con A and eluted with alpha-methyl-D-glucoside does not accept the transfer of phosphate from [gamma-32 P] ATP as a substrate for endogenous protein kinase activity. The nonretarded fraction contains greater than 90% of the radioactive label. These experiments also confirm the carbohydrate heterogeneity of component a (Findley, J.B.C., J. Biol. Chem. 249:4398 (1974).
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PMID:Substrate heterogeneity of component a of the human erythrocyte membrane. 93 37

Myotonic dystrophy (DM) is an adult form of muscular dystrophy affecting about 1 in 8,000 individuals in most populations. Although common symptoms include progressive muscle weakness and stiffness, it is characterised by a heterogeneous clinical picture. Despite this variation in both the nature and severity of the symptoms seen in affected individuals, DM is genetically homogeneous, segregating as a single locus on the proximal long arm of human chromosome 19. As the biochemical abnormality underlying the disease was unknown, a reverse genetics (or positional cloning) strategy for identifying the gene responsible was adopted. The resulting collaborative effort culminated in the detection of the molecular mutation event and the gene within which it lies: the expansion of a trinucleotide repeat (CTG) at the 3' end of a gene encoding a member of the cyclic AMP-dependent protein kinase family. This has diagnostic implications since an easy, reliable and predictive test can now be offered to individuals with a family history of DM. These findings are also a prerequisite for further studies concerning the biochemical and physiological aetiology of DM and possible therapeutic strategies. In addition, the striking similarity between findings at the DNA level in DM and those in fragile X syndrome and spinal and bulbar muscular atrophy suggests that the mechanism leading to the increase in copy number of trinucleotide repeats at particular loci may be responsible for a number of other genetic diseases.
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PMID:Myotonic dystrophy: another case of too many repeats? 130 24

Catecholamines play an essential role in the activation of the cardiovascular system and in the regulation of energy metabolism in a variety of physiological conditions. Many of these effects are mediated through beta-adrenoceptors located on cell membranes. Binding of catecholamines to beta-adrenoceptor increases the concentration of intracellular cyclic AMP which in turn activates protein kinase A. This enzyme phosphorylates a number of other intracellular enzymes influencing cell metabolism and functions. The primary structures of the receptor and its topography in the cell membrane as well as its binding domains have been partially clarified. In studies of the human beta-adrenergic receptors blood lymphocytes have mostly been used as model cells. These cells carry receptors of mainly the beta 2-subtype. The adequacy of this model system has been demonstrated in several studies. In clinical work receptor assays have had limited use until now. However, studies on the pathophysiology of the adrenergic system in several diseases have revealed that receptor alterations may constitute an important factor in the disease process. Measurements of adrenergic receptors may also have increasing usefulness in determining optimal drug concentrations. Our own studies have primarily focused on physiological adjustments in the beta-adrenergic system during acute or prolonged physical exercise as well as receptor changes in heart failure, muscle diseases and the alcohol withdrawal syndrome. We have also explored receptor dynamics during therapy with beta-blocking agents. These studies, briefly reviewed in this communication, have led to the following conclusions: (1) High aerobic capacity is associated with an increased density and ability of lymphocytic beta-adrenoceptors to respond to catecholamines. (2) Both short-and long-term physical exercise induce a rapid up-regulation and more effective functioning of lymphocytic beta-adrenoceptors. (3) Administration of beta-blocking drugs is associated with a subnormal exercise-induced up-regulation and decreased functioning of the lymphocytic beta-adrenoceptors. (4) The exercise-provoked up-regulation and improved functioning of beta-adrenoceptors is blunted in heart failure patients. (5) Patients with Duchenne-type of muscular dystrophy have a reduced number of lymphocytic beta-adrenoceptors. (6) In chronic alcoholics the lymphocytic beta-adrenoceptor level is subnormal but during abrupt ethanol withdrawal a rapid increase in the number and functioning of the receptors to a normal level takes place. This sequence of events may lead to a condition of relative adrenergic hypersensitivity.
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PMID:The beta-adrenergic system in man: physiological and pathophysiological response. Regulation of receptor density and functioning. 197 55

Myotonic muscular dystrophy is a disorder of humans that involves many organ systems. Physiological studies have suggested that the fundamental defect is of membrane origin. Heretofore, no reproducible metabolic abnormalities have been demonstrated. In the present studies we used erythrocyte ghosts as a convenient source of purified membranes that do not possess changes of denervation, dystrophy, and fibrosis that might complicate the interpretation of muscle membrane changes. Our experiments demonstrated a significant difference in the phosphorylation of erythrocyte ghost protein by [gamma-(32)P]ATP, with endogenous protein kinase of erythrocyte membrane as the enzyme source. After ghosts were kept for 1 week at -20 degrees , phosphorylation of membrane protein in eight controls was twice as high as endogenous protein kinase activity measured in fresh preparations. No stimulation was seen in preparations from seven myotonic dystrophy patients from three different families. This reproducible difference in normal and myotonic membranes may represent an important new approach to studies of this debilitating inborn error of metabolism.
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PMID:Protein kinase activity in erythrocyte ghosts of patients with myotonic muscular dystrophy. 435 59

The most common adult form of muscular dystrophy, myotonic dystrophy, is due to a triplet repeat (CTG) expansion in the 3' untranslated region of the myotonic dystrophy gene. Although this gene is known to encode a protein kinase, the mechanism by which a defect in this gene results in a disease state is not understood. To gain insight into this mechanism, the yeast two hybrid system was utilized to identify proteins which interact with myotonic dystrophy protein kinase. Eight positive clones were identified that interact specifically with the myotonic dystrophy protein kinase. One clone, which encodes a novel protein interacting with myotonic dystrophy protein kinase both in vivo in yeast and in vitro, was characterized further. The gene encoding this protein may represent a member of a small gene family, and the protein (95 amino acids) exhibits a high degree of homology to an snRNP protein, D1. This novel protein may be a member of the signal transduction pathway which is responsible for the manifestation of this disease.
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PMID:Identification of a novel protein, DMAP, which interacts with the myotonic dystrophy protein kinase and shows strong homology to D1 snRNP. 885 85


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