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)

Fast-frozen pectoralis muscle samples were taken from normal chickens (lines 200 and 412) and chickens having hereditary muscular dystrophy (line 304). The glycogen phosphorylase activity ratio (activity without AMP/activity with AMP) was significantly greater in dystrophic muscles (0.306 +/- 0.046) than it was in normal muscles (0.090 +/- 0.023). Glucagon treatment did not cause any changes in phosphorylase activity ratios. Isoproterenol treatment of both normal and dystrophic muscles raised the phosphorylase activity ratio of normal muscles to 0.446 +/- 0.054, which was not significantly different from that of the dystrophic muscles. The dystrophic muscles had significantly less glycogen than normal muscles (23.3 +/- 2.8 compared with 36.8 +/- 2.8 mumoles glucosyl units/g of muscle). There was no relationship of muscular dystrophy to total phosphorylase activity (measured in the presence of 1 mM AMP) and to glycogen synthase activities measured without and with glucose 6-phosphate. Normal muscles had 28% less cAMP and 49% less cGMP than dystrophic muscles, but these differences were eliminated by treatment of the chickens with glucagon.
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PMID:Glycogen cycle enzymes and cyclic nucleotides in avian muscular dystrophy. 624 56

Injection of serotonin (5-hydroxytryptamine) induced a marked decrease in the level of glucose 1,6-diphosphate (Glc-1,6-P2) in the rat tibialis anterior muscle. Concomitant to the decrease in Glc-1,6-P2, the potent activator of phosphofructokinase and phosphoglucomutase, the activities of both these enzymes were markedly reduced by serotonin. The level of Glc-1,6-P2 and the activities of phosphofructokinase and phosphoglucomutase increased with age in the tibialis anterior muscle and the effect of serotonin was more pronounced in the older animals. Serotonin also induced a significant increase in the level of cyclic GMP in muscle. The serotonin-induced changes in the normal muscle mimic the changes in carbohydrate metabolism we found previously in muscular dystrophy.
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PMID:Changes in the levels of glucose 1,6-diphosphate and cyclic GMP, and in the activities of phosphofructokinase and phosphoglucomutase induced by serotonin in muscle. 630 80

Interactins between skeletal muscle protein and amino acid metabolism were investigated using C57BL and 129ReJ mice with hereditary muscular dystrophy. On incubation, hind limb muscle preparations from dystrophic mice released large quantities of amino acids, particularly alanine and glutamine which were increased 70% and 40% compared to muscles from carrier or control mice. The increased alanine release did not result from altered alanine oxidation to CO2 or reincorporation into protein. Alanine and glutamine formation from added amino acids were equal with dystrophic and control muscles. Incorporation in vitro of leucine, alanine, and glutamate into proteins of dystrophic muscle was 3- to 7-fold greater than control muscle, and the incorporation in vivo of [3H]- or [14C]arginine into muscle proteins was greater in extent and earlier in time with dystrophic as compared to control muscle. Proteins were also labeled in vivo using [guanido-14C]arginine. On incubation of these muscles in vitro, a 100% greater loss of label from protein was observed with dystrophic as compared to control preparations, and the appearance of label in the media was correspondingly increased. Sodium dodecyl sulfate-gel electrophoresis of dystrophic skeletal muscle showed numerous protein bands to be reduced in density, but autoradiographic studies demonstrated that these same bands were more highly labeled in vitro by [35S]methionine in dystrophic than in control muscle. Although insulin stimulation of glucose uptake was markedly blunted in dystrophic muscle, insulin inhibited alanine and glutamine release equally from both control and dystrophic muscle. These data indicate that alanine and glutamine formation and release are increased in hereditary mouse muscular dystrophy. An accelerated degradation and an increased resynthesis of many muscle proteins were also observed in dystrophic compared to control animals. This increased proteolysis may account for the increased alanine and glutamine formation in dystrophic muscle.
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PMID:Skeletal muscle protein and amino acid metabolism in hereditary mouse muscular dystrophy. Accelerated protein turnover and increased alanine and glutamine formation and release. 689 25

Insulin insensitivity of uncertain etiology often exists in myotonic muscular dystrophy, a multitissue, autosomal dominant disorder hypothesized to be a hereditary membrane disease. The present studies show that monocytes from patients with myotonic dystrophy fail to demonstrate the normally observed qualitative increase in insulin-binding affinity after oral glucose loading. Monocytes from 10 normal volunteers developed a significantly increased insulin-binding affinity by 2 hr after glucose ingestion (mean +/- SEM, 11.7 +/- 2.7 ng/ml compared to basal 50% insulin displacement value of 23.3 +/- 2.2 ng/ml, P less than 0.005). This increase was maintained at 5 hr (13.5 +/- 2.7 ng/ml, P less than 0.05). In contrast, no significant increase in monocyte insulin-binding affinity occurred in cells from nine myotonic dystrophy patients at 2 and 5 hr after glucose loading (50% insulin displacement values: basal, 14.2 +/- 2.8 ng/ml; 2 hr, 16.7 +/- 1.7 ng/ml; 5 hr, 10.8 +/- 2.1 ng/ml). These alterations document the presence of abnormalities in the insulin receptor or receptor-associated processes that modulate insulin binding. A hereditary plasma membrane defect may underlie these findings. This abnormality may have an etiologic role in the decreased insulin sensitivity that frequently afflicts patients with myotonic dystrophy.
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PMID:Abnormal regulation of monocyte insulin-binding affinity after glucose ingestion in patients with myotonic dystrophy. 701 35

Myofibrillar protein degradation was measured in 4-week-old normal (line 412) and genetically muscular-dystrophic (line 413) New Hampshire chickens by monitoring the rates of 3-methylhistidine excretion in vivo and in vitro. A method of perfusing breast and wing muscles was developed and the rate of 3-methylhistidine release in vitro was measured between 30 and 90min of perfusion. During this perfusion period, 3-methylhistidine release from the muscle preparation was linear, indicating that changes in 3-methylhistidine concentration of the perfusate were the result of myofibrillar protein degradation. Furthermore, the viability of the perfused muscle was maintained during this interval. After 60min of perfusion, ATP, ADP and creatine phosphate concentrations in pectoral muscle were similar to muscle freeze-clamped in vivo. Rates of glucose uptake and lactate production were constant during the perfusion. In dystrophic-muscle preparations, the rate of 3-methylhistidine release in vitro (nmol/h per g of dried muscle) was elevated 2-fold when compared with that in normal muscle. From these data the fractional degradation rates of myofibrillar protein in normal and dystrophic pectoral muscle were calculated to be 12 and 24% respectively. Daily 3-methylhistidine excretion (nmol/day per g body wt.) in vivo was elevated 1.35-fold in dystrophic chickens. Additional studies revealed that the anti-dystrophic drugs diphenylhydantoin and methylsergide, which improve righting ability of dystrophic chickens, did not alter 3-methylhistidine release in vitro. This result implies that changes in myofibrillar protein turnover are not the primary lesion in avian muscular dystrophy. From tissue amino acid analysis, the myofibrillar 3-methylhistidine content per g dry weight of muscle was similar in normal and dystrophic pectoral muscle. More than 96% of the 3-methylhistidine present in pectoral muscle was associated with the myofibrillar fraction. Dystrophic myofibrillar protein contained significantly less 3-methylhistidine (nmol/g of myofibrillar protein) than protein from normal muscle. This observation supports the hypothesis that there may be a block in the biochemical maturation and development of dystrophic muscle after hatching. Free 3-methylhistidine (nmol/g wet wt.) was elevated in dystrophic muscle, whereas blood 3-methylhistidine concentrations were similar in both lines. In summary, the increased myofibrillar protein catabolism demonstrated in dystrophic pectoral muscle correlates with the increased lysosomal cathepsin activity in this tissue as reported by others.
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PMID:Myofibrillar protein degradation in the chicken. 3-Methylhistidine release in vivo and in vitro in normal and genetically muscular-dystrophic chickens. 731 97

1. Blood alanine was measured in six patients undergoing total hip replacement and in four normal subjects starved for 4 days. Hypoalaninaemia occurred in both groups and persisted in the surgical patients despite an adequate diet. The blood alanine was also low in four insulin-dependent diabetic patients and in four patients with muscular dystrophy; it was normal in four patients with cirrhotic liver disease. 2. The removal of an intravenous L-alanine load (12 g; 133 mmol) was significantly increased after surgery and in the diabetic patients, unaltered by starvation, and decreased in the cirrhotic patients. 3. Increases in blood glucose were observed when alanine infusion was performed 6 h after surgery and after 3 days' starvation. Increases in blood lactate and pyruvate always occurred after alanine infusion but were most marked 6 h after surgery. 4. These results show that the metabolic response to an alanine load and the ability of the body to remove it alter with change in physiological state, and that the hypoalaninaemia after surgery and in diabetes is related to an increased removal of intravenous alanine, whereas that during starvation is not.
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PMID:Relationship between the basal blood alanine concentration and the removal of an alanine load in various clinical states in man. 737 55

1. To investigate the effects of starvation, elective surgery, accidental injury and other clinical conditions on the metabolism of branched-chain amino acids in man, we have measured the basal concentration of leucine and the removal of metabolic effects of infused L-leucine. 2. The blood concentration of leucine as significantly increased by surgery, starvation and accidental injury, and decreased in cirrhosis. It tended to increase in diabetes and was unaffected by muscular dystrophy. 3. The half-life of infused leucine was nearly doubled by 4 days of complete starvation, unaltered by surgery and decreased by severe accidental injury, Infusion with Intralipid, which increased free fatty acid and ketone-body concentrations, had no effect on the removal of a leucine load. The clearance rate of infused leucine was reduced in diabetes and muscular dystrophy and increased in cirrhosis. 4. The effects of infused leucine on blood glucose and ketone bodies differed according to the groups studied. 5. Since the traumatized patients were given sufficient energy and nitrogen and disposed of a leucine load at a different rate from the starved patients, the causes of the increase in blood concentration of leucine in these two conditions are different.
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PMID:The removal of infused leucine after injury, starvation and other conditions in man. 742 95

Autosomal-recessive dystrophic chickens were treated in three experimental groups with an intraperitoneal multicomponent drug mixture (50 mg/kg Ep475, 20 mg/kg Cinanserin, 10 mg/kg stanazolol, 100 mg/kg leucine, 0.1 mg/kg insulin, 100 mg/kg glucose, and 50 mg/kg carnitine), percutaneous high-frequency electrostimulation of the pectoralis muscle, or a combination of both drug and electrostimulation treatments. Therapeutic efficacy was determined in each group by measurements of strength, righting ability, and histomorphometric analyses of the pectoralis musculature. Drug treatment alone was found to significantly improve muscular strength, function, and relative myofiber necrosis compared with sham-injected controls. The efficacy of drug treatment was found to be equal to or better than singular electrostimulation treatment; there was no apparent additive effect of electrostimulation. As a result, these findings support the use of drug treatment as a useful nongenetic approach to the management of human muscular dystrophy where there is the potential risk of injury from exercise usage.
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PMID:Efficacy of drug regimen exceeds electrostimulation in treatment of avian muscular dystrophy. 766 93

It has been reported that serum levels of ketone bodies often elevate in patients with Duchenne muscular dystrophy (DMD). The cause of this abnormal metabolism, however, has not been elucidated. In this study, serum levels of ketone bodies were measured in the early morning in patients with DMD, congenital muscular dystrophy and cerebral palsy. Serum free fatty acids (FFA), glucose, and thickness of subcutaneous fat were also measured. Ketone bodies elevated in most DMD patients, but not elevated in patients with the other disorders. Hyperketonemia in the DMD patients was accompanied by elevation of the FFA level, but no correlation was seen between hyperketonemia and the creatine kinase level or the severity of muscle involvement. No differences were found between DMD patients and others in the levels of FFA, glucose and thickness of subcutaneous fat. These results indicate that DMD patients are more prone to ketosis than the others. The effect of biotin administration (2 mg/day) on hyperketonemia also was investigated in 11 patients with DMD. The levels of total ketone bodies decreased by biotin administration for 2 weeks. These data suggest that the utilization of FFA and ketone bodies may be impaired in DMD patients. Biotin treatment will be useful for improving the abnormal metabolism of ketone bodies in DMD patients.
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PMID:[Abnormal metabolism of fatty acids and ketone bodies in Duchenne muscular dystrophy, and the effect of biotin on these abnormalities]. 898 91

Just before I became an editor of Biochemical and Biophysical Research Communications in 1977 we published our first paper in this same journal on the study of tiny perfused rat hearts by (31)P NMR. In this article I trace the development of this in vivo NMR approach from the study of small rat and mouse hearts to human investigations. With the advent of molecular genetics the mouse became a key model organism for understanding and characterizing the function of human genes. I illustrate this by some of our recent work on Duchenne and Becker muscular dystrophy where the in vivo biochemical abnormalities observed in the human can be better understood from investigations of the muscle and heart of the murine model for muscular dystrophy, the mdx mouse. In particular, the mdx mouse heart exhibits ECG (conduction) abnormalities similar to that in the human which we associate with the reduction of the neuronal nitric oxide synthase activity compared to controls. We have also demonstrated in the mouse model that the increased sensitivity of the heart to ischemia is associated with a decrease in the insulin-stimulated glucose transport. Imaging techniques involving NMR, visible light, and others will play an increasingly important role in linking genomics to functional "molecular physiology."
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PMID:Of mice and men: from early NMR studies of the heart to physiological genomics. 1060 10


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