Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:3.6.1.3 (ATPase)
 65,361 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

In adult male hamsters the influence of emphysema (EMP) on the in vitro contractile and fatigue properties and the histochemical, morphometric, and metabolic properties of muscle fibers in the costal diaphragm was determined 6 mo after the administration of either elastase or saline (controls, CTL). Isometric contractile properties were determined in vitro using supramaximal direct muscle stimulation. Optimal fiber length for force generation was significantly shorter in the EMP than in the CTL diaphragm. Maximum specific force (i.e., force per unit area) was 25% lower than CTL. Fatigue resistance was significantly improved in the EMP diaphragm compared with CTL. Diaphragm muscle fibers were classified as type I or II on the basis of histochemical staining for myofibrillar adenosinetriphosphatase after alkaline preincubation. The proportions of type I and II fibers were similar between the two groups. Cross-sectional areas of type II fibers were 30% larger in EMP than in CTL diaphragms. Succinate dehydrogenase activities of both type I and II fibers were higher in EMP than in CTL diaphragms. The number of capillaries surrounding both type I and II fibers increased with EMP, but in proportion to the hypertrophy of these fibers. Thus, capillary density (number of capillaries per fiber cross-sectional area) remained unchanged. We postulate that these contractile, morphometric, and metabolic adaptations reflect an increased activation of the diaphragm in response to the loads imposed by EMP.
 ...
PMID:Adaptations of the diaphragm in emphysema. 156 89

The effect of different L-phenylalanine (Phe) concentrations (0.24-12.1 mM), on acetylcholinesterase (AChE) and Na+,K(+)-ATPase activities of diaphragm homogenates from 21-day old rats and pure enzymes, was investigated at 37 degrees C. AChE and Na+,K(+)-ATPase activities were determined after preincubation with Phe. AChE activity in diaphragm homogenate or in pure eel E. electricus enzyme showed a decrease, which reached a maximum of 18% with Phe concentrations of 0.9-12.1 mM. However lower Phe concentrations (0.24 mM) increased the enzyme activity (by approximately 22%), only in the diaphragm homogenate. Diaphragm-associated Na+,K(+)-ATPase activity showed a progressive and concentration-dependent decrease, by about 30-35% in the presence of high Phe concentrations. Pure enzyme activity (from porcine cerebral cortex) was not affected by high Phe concentrations (> 0.48 mM), while it was increased by low concentrations. The above results suggest: a) A direct inactivating effect of high Phe concentrations on AChE and an indirect activating effect induced by low concentrations. b) A direct activating effect of low Phe concentrations and an indirect inactivating effect of high ones on Na+,K(+)-ATPase. c) The combination of high Phe concentrations effects on AChE and Na+,K(+)-ATPase could influence the levels of the diaphragm synaptic ACh.
 ...
PMID:L-phenylalanine effect on rat diaphragm acetylcholinesterase and Na+,K(+)-ATPase. 993 71

This study aimed to elucidate changes in respiratory muscles and their mechanism in cardiomyopathy. The contractile properties and histology of the diaphragm, as well as serum levels of insulin-like growth factor (IGF)-1, were examined in 10 hamsters with idiopathic dilated cardiomyopathy (CM) and 10 controls. At 28 weeks, body weight in CM was reduced compared with controls (114+/-10 versus 144+/-14 g, p<0.0001). The ratio of diaphragm to body weight was significantly higher in CM than in controls (0.228+/-0.015 versus 0.182+/-0.017, p<0.0001). In vitro, maximal diaphragmatic twitch (303+/-63 versus 455+/-119 g x cm(-2)) and tetanic tensions (1,555+/-369 versus 2,204+/-506 g x cm(-2)) were significantly lower in CM than in controls (p<0.005). The half-relaxation time was significantly shorter in CM (19+/-1 ms) than in controls (24+/-3 ms, p<0.0005). Fatiguability at 25 Hz was significantly less in CM (28%) than in controls (42%, p<0.0001). Diaphragm and gastrocnemius adenosine triphosphatase staining showed type I fibre atrophy in CM, associated with an increase in the number of type I fibres in the diaphragm. Histological examination of both muscles revealed an abnormal muscular pattern. Finally, serum levels of IGF-1 were 47% lower in the CM group than in controls (p<0.0001) and were clearly related to the changes in the contractile properties and histology of the diaphragm. In conclusion, cardiomyopathy in hamsters: 1) depressed the force-generating capacity and shortened the relaxation of the hamster diaphragm; 2) induced type I fibre atrophy in combination with a myopathic pattern; and 3) was associated with a significant reduction in serum levels of insulin-like growth factor-1, related to the diaphragmatic changes. Whether these changes are primary myopathic or secondary to heart failure remains to be elucidated.
 ...
PMID:Effects of dilated cardiomyopathy on the diaphragm in the Syrian hamster. 1006 87

Endurance exercise modifies regulatory systems that control skeletal muscle Na+ and K+ fluxes, in particular Na+-K+-ATPase-mediated transport of these ions. Na+ and K+ ion channels also play important roles in the regulation of ionic movements, specifically mediating Na+ influx and K+ efflux that occur during contractions resulting from action potential depolarization and repolarization. Whether exercise alters skeletal muscle electrophysiological properties controlled by these ion channels is unclear. The present study tested the hypothesis that endurance exercise modifies diaphragm action potential properties. Exercised rats spent 8 wk with free access to running wheels, and they were compared with sedentary rats living in conventional rodent housing. Diaphragm muscle was subsequently removed under anesthesia and studied in vitro. Resting membrane potential was not affected by endurance exercise. Muscle from exercised rats had a slower rate of action potential repolarization than that of sedentary animals (P = 0.0098), whereas rate of depolarization was similar in the two groups. The K+ channel blocker 3,4-diaminopyridine slowed action potential repolarization and increased action potential area of both exercised and sedentary muscle. However, these effects were significantly smaller in diaphragm from exercised than sedentary rats. These data indicate that voluntary running slows diaphragm action potential repolarization, most likely by modulating K+ channel number or function.
 ...
PMID:Wheel-running exercise alters rat diaphragm action potentials and their regulation by K+ channels. 1270 92

To assess the significance of energy supply routes in cellular energetic homeostasis, net phosphoryl fluxes catalyzed by creatine kinase (CK), adenylate kinase (AK) and glycolytic enzymes were quantified using 18O-phosphoryl labeling. Diaphragm muscle from double M-CK/ScCKmit knockout mice exhibited virtually no CK-catalyzed phosphotransfer. Deletion of the cytosolic M-CK reduced CK-catalyzed phosphotransfer by 20%, while the absence of the mitochondrial ScCKmit isoform did not affect creatine phosphate metabolic flux. Contribution of the AK-catalyzed phosphotransfer to total cellular ATP turnover was 15.0, 17.2, 20.2 and 28.0% in wild type, ScCKmit, M-CK and M-CK/ScCKmit deficient muscles, respectively. Glycolytic phosphotransfer, assessed by G-6-P 18O-phosphoryl labeling, was elevated by 32 and 65% in M-CK and M-CK/ScCKmit deficient muscles, respectively. Inhibition of glyceraldehyde 3-phosphate dehydrogenase (GAPDH)/phosphoglycerate kinase (PGK) in CK deficient muscles abolished inorganic phosphate compartmentation and redirected high-energy phosphoryl flux through the AK network. Under such conditions, AK phosphotransfer rate was equal to 86% of the total cellular ATP turnover concomitant with almost normal muscle performance. This indicates that near-equilibrium glycolytic phosphotransfer reactions catalyzed by the GAPDH/PGK support a significant portion of the high-energy phosphoryl transfer in CK deficient muscles. However, CK deficient muscles displayed aberrant ATPase-ATPsynthase communication along with lower energetic efficiency (P/O ratio), and were more sensitive to metabolic stress induced by chemical hypoxia. Thus, redistribution of phosphotransfer through glycolytic and AK networks contributes to energetic homeostasis in muscles under genetic and metabolic stress complementing loss of CK function.
 ...
PMID:Phosphotransfer dynamics in skeletal muscle from creatine kinase gene-deleted mice. 1497 67