UMLS:C0026837 - FACTA Search

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Query: UMLS:C0026837 (muscle rigidity)
1,077 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A nonhydrolyzable ATP analog, adenylyl imidodiphosphate (AMP-PNP), has been used to study the role of ATP binding in flagellar motility. Sea urchin sperm of Lytechinus pictus were demembranated, reactivated, and locked in "rigor waves" by a modification of the method of Gibbons and Gibbons (11). Rigor wave sperm relaxed within 2 min after addition of 4 micrometer ATP, and reactivated upon addition of 10-12 micrometer ATP. The beat frequency of the reactivated sperm varied with ATP concentration according to Michaelis-Menten kinetics ("Km" = 0.24 mM; "Vmax" = 44 Hz) and was competitively inhibited by AMP-PNP (Ki" approximately to 8.1 mM). Rigor wave sperm were completely relaxed (straightened) within 2 min by AMP-PNP at concentrations of 2-4 mM. The possibilities that relaxation in AMP-PNP was a result of ATP contamination, AMP-PNP hydrolysis, or lowering of the free Mg++ concentration were conclusively ruled out. The results suggest that dynein cross-bridge release is dependent upon ATP binding but not hydrolysis.
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PMID:Effects of adenylyl imidodiphosphate, a nonhydrolyzable adenosine triphosphate analog, on reactivated and rigor wave sea urchin sperm. 15 47

Intracellular free Mg2+ concentration ([Mg2+]i) was measured in isolated single fibres of Xenopus muscle using the fluorescent Mg2+ indicator furaptra. In resting muscle the [Mg2+]i was 1.7 mM in a Mg(2+)-free Ringer solution. There was no significant change in [Mg2+]i over 2 h in Mg(2+)-free Ringer solution. Elevating extracellular [Mg2+] to 40 mM for 5 min caused a small rise (0.13 mM) in [Mg2+]i. There was no detectable rise in [Mg2+]i after 5 min in Na(+)-free Ringer solution. These results suggest that the membrane is relatively impermeable to Mg2+ and that there was no detectable Na(+)-Mg2+ exchange over 5 min. When muscle fibres were fatigued by repeated tetani continued until force declined to about 40% of control, [Mg2+]i showed characteristic changes. During the early period of fatigue when force first showed a small decline and then became almost stable, [Mg2+]i was unchanged; during the final period of fatigue when force declined more rapidly, [Mg2+]i increased by 0.8 mM. Recovery of [Mg2+]i took about 30 min. Recovery of force was complex: tetanic force first declined (post-contractile depression) and then slowly recovered to control. Since the minimum force occurred at about the time when [Mg2+]i had recovered, it seems unlikely that post-contractile depression is caused by elevated [Mg2+]i. Rigor, produced by inhibiting oxidative phosphorylation and glycolysis, was associated with a larger increase (1.6 mM) in [Mg2+]i than fatigue. The rise in [Mg2+]i during fatigue and metabolic blockade could be explained as release of Mg2+ normally bound to ATP. A model of the metabolic changes and the resulting increase in [Mg2+]i explains our results reasonably well.
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PMID:Myoplasmic Mg2+ concentration in Xenopus muscle fibres at rest, during fatigue and during metabolic blockade. 141 55

The effects of inosine (INO) on substrate metabolism and rigor formation in ischemic myocardium were examined in isolated rabbit hearts. Metabolite content was assessed in tissue extracts by chemical analysis and in the whole heart by 13C and 31P nuclear magnetic resonance spectroscopy. In ischemic hearts metabolizing either [3-13C]pyruvate or [1-13C]glucose, 1 mM INO increased both total and 13C-labeled alanine content; lactate content was unaffected. At 3 minutes of ischemia, tissue alanine was 1.81 +/- 0.11 microM/g wet wt (mean +/- SEM) in hearts perfused with pyruvate+INO versus 1.23 +/- 0.15 microM/g wet wt in hearts perfused with pyruvate alone (p less than 0.05). INO reduced tissue glycogen during ischemia in pyruvate-perfused hearts. Tissue alanine content in ischemic hearts that were supplied glucose+INO (1.29 +/- 0.13 microM/g wet wt) was greater than in ischemic hearts supplied glucose alone (0.65 +/- 0.14 microM/g wet wt). Alanine was found to originate from pyruvate and was a glycolytic end product in glucose-perfused hearts. INO raised the [3-13C]alanine/[3-13C]lactate ratio in ischemic, intact hearts (glucose = 0.24 +/- 0.07 versus glucose+INO = 0.60 +/- 0.09; pyruvate = 0.49 +/- 0.08 versus pyruvate+INO = 0.89 +/- 0.08). At 7 minutes of ischemia, ATP content fell to 70 +/- 3% with glucose+INO versus 58 +/- 5% with glucose alone. Rigor (stone heart) was delayed from 14.7 +/- 1.3 to 23.2 +/- 1.6 minutes with INO. INO did not change ATP content in ischemic hearts that were supplied pyruvate but delayed rigor (pyruvate = 9.9 +/- 1.2 minutes; pyruvate+INO = 15.6 +/- 1.0 minutes), possibly at the expense of glycogen. Supplemental glucose improved the effectiveness of INO with pyruvate to preserve ATP (pyruvate+glucose = 42 +/- 6%; pyruvate+glucose+INO = 72 +/- 6%) and further delayed rigor (pyruvate+glucose = 13.3 +/- 1.5 minutes; pyruvate+glucose+INO = 20.3 +/- 1.8 minutes). Glucose metabolism supported improved energetic and contractile states in ischemic hearts treated with INO. Thus, cardioprotection of the ischemic heart by INO was associated with preservation of functional integrity and improved energy production due to increased glycolytic activity. Activation of glycolysis in the presence of INO was accommodated by augmented alanine production without the additional accumulation of lactate.
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PMID:Effects of inosine on glycolysis and contracture during myocardial ischemia. 199 56

Three families with a complete deficiency of the lactate dehydrogenase M subunit show exertional myoglobinuria. The response to ischemic forearm work is characteristic in these three families: an increase of venous lactate concentration after ischemic work was not observed and a marked increase of venous pyruvate was found. Glycolysis was markedly retarded in the patient's muscle in the glyceraldehyde 3-phosphate dehydrogenase (GA3PD) step. A significant increases in glyceraldehyde 3-phosphate, dihydroxyacetone phosphate and fructose 1,6-diphosphate were observed. The glycolysis retardation may be attributed to the impaired reoxidation of NADH produced by GA3PD action. The cytosolic fraction of skeletal muscle is rich in alpha-glycerophosphate dehydrogenase. This enzyme reoxidizes the excess NADH and drains triose phosphates from the glycolytic pathway under anaerobic conditions. For this reason, ATP production was significantly impaired and muscle cells were damaged in these patients. Consequently, the cytosolic enzymes and proteins such as creatine kinase and myoglobin were released into the blood stream. Otherwise, patients with a lactate dehydrogenase M-subunit deficiency do not show muscle stiffness and myoglobinuria under ordinary circumstances. They complain of muscle rigidity and sudden myoglobinuria after strenous exercise under anaerobic conditions. Thus, the lactate dehydrogenase M-subunit deficiency does not show any symptoms under ordinary circumstances, but is a latent hereditary disorder, now recognized as a new type of hereditary exertional myoglobinuria.
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PMID:Lactate dehydrogenase M-subunit deficiency: a new type of hereditary exertional myopathy. 338 24

The polarization properties of light diffracted from single-skinned fibers of skeletal muscles have been examined under conditions in which the bathing solution pH and the ionic strength are changed. For fibers in the relaxed state, we observe large decreases in both the total depolarization signal, r, and the total diffraction birefringence signal, delta nT, upon pH change from 7.0 to 8.0 at normal ionic strength. However, if the ionic strength is raised, then the r-value change as the pH changes from pH 7.0 to pH 8.0 is much smaller. If the rigor state is achieved at pH 8.0, and 0 mM ATP under either of the ionic strength conditions, the fiber can still be stretched. Rigor stiffness for this state is only approximately 20% that of the value of the stiffness at pH 7.0 rigor. Electron micrographs obtained under this pH 8.0 rigor state show that the overlap region can be decreased upon stretching the fiber, signifying a different kind of weaker-binding rigor state. Optically, the weaker-binding rigor state has a lower depolarization signal and larger form birefringence than the strong-binding rigor state. To convert from one type of rigor state (pH 7.0) to the other rigor state (pH 8.0), or vice versa, the fiber must first be relaxed. Apparently, either of the rigor states can block the full impact of the pH effect.
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PMID:Optical ellipsometry on the diffraction order of skinned fibers. pH-induced rigor effects. 349 77

Rigor complexes between actin and myosin have been shown to cause increased binding of Ca2+ to troponin C. A similar effect of force-generating crossbridges has been suggested as an explanation for the coupling between load and activation which has been observed in skeletal and cardiac muscle. The goal of this study was to test the hypothesis that Ca2+-troponin affinity during crossbridge cycling is load-dependent. Ca2+-binding to detergent-extracted rabbit psoas fibres was measured during ATP-induced force generation and in the relaxed state. To compare Ca2+ binding in the latter two states it was necessary to establish conditions in which ATP-induced force could be regulated independently of free Ca2+ concentration. Such conditions were obtained by the use of either the ATPase inhibitor sodium vanadate or the substitution of MgITP for MgATP as an energy source. This study showed that in the presence of MgATP (or MgITP) the amount of Ca2+ bound to the myofilaments at a given free Ca2+ concentration was independent of the force generated. Thus force per se is not a determinant of Ca2+-troponin affinity.
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PMID:The binding of calcium to detergent-extracted rabbit psoas muscle fibres during relaxation and force generation. 385 10

Different clinical features exist for lactate dehydrogenase A-subunit and B-subunit deficiencies. The metabolic basis for these clinical differences was elucidated by investigating carbohydrate metabolism in the affected tissues. Glycolysis was markedly retarded at the position of glyceraldehyde 3-phosphate dehydrogenase, and significant increases of glyceraldehyde 3-phosphate, dihydroxyacetone phosphate, and fructose 1,6-diphosphate were observed. The physical and kinetic properties of glyceraldehyde 3-phosphate dehydrogenase prepared from human erythrocytes and skeletal muscle were almost identical, but the mode of inhibition of the enzyme was slightly different in erythrocytes and in skeletal muscle. In erythrocytes, impaired reoxidation of NADH followed by the deficiency of substrate NAD+ causes a reduction of glyceraldehyde 3-phosphate dehydrogenase activity. However, in skeletal muscle, the increased level of NADH markedly inhibits the enzyme under anaerobic conditions. A flux of triose phosphates from glycolysis occurred in skeletal muscle of a patient with A-subunit deficiency. This flux is attributable to the high cytosol alpha-glycerophosphate dehydrogenase activity in skeletal muscle. for these reasons the ATP production was significantly impaired in the patient and the damage to muscle cells brings about the release of cytosolic enzymes and muscle rigidity after hard exercise. In contrast in the erythrocytes, the level of alpha-glycerophosphate dehydrogenase is very low and another red cell-specific NADH reoxidizing system such as NADH-cytochrome b5 reductase (NADH-methemoglobin reductase) is operating. In this manner, the NAD+ level in erythrocytes is compensated for without the flux of triose phosphates derived from glucose. Therefore, the ATP production in erythrocytes is sufficiently maintained by glycolysis even in a patient with complete lactate dehydrogenase B-subunit deficiency. Thus, impaired ATP production in anaerobic stage is a condition which is specific for lactate dehydrogenase A-subunit deficiency but does not occur for B-subunit deficiency. The different clinical features of the A- and B-subunit deficiencies have been clearly elucidated.
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PMID:Lactate dehydrogenase A-subunit and B-subunit deficiencies: comparison of the physiological roles of LDH isozymes. 641 49

Mechanical and biochemical descriptions of the muscle cross-bridge cycle have been correlated. Skinned muscle fibres of rabbit psoas muscle in rigor were incubated in solutions containing approximately equal to 30 microM-Ca2+ ions and P3-1-(2-nitro)phenylethyladenosine-5'-triphosphate, 'caged ATP', an inert photolabile precursor of ATP. ATP was liberated from caged ATP within the fibres by pulses of 347 nm radiation from a frequency-doubled ruby laser. The mechanical responses of muscle fibres to the rapid increase of ATP concentration were monitored. Tension dropped briefly and then rose above the rigor value to the level characteristic of a steady active contraction. Liberation of ATP decreased in-phase stiffness (measured at 500 Hz) from the rigor level to a maintained value intermediate between rigor and relaxed values. Out-of-phase stiffness increased to a maintained level indicating a phase lead of tension with respect to imposed length oscillations. Rigor tension was varied prior to photolysis by slight alterations of fibre length. Tension traces starting at different rigor tensions converged to a common tension level at the same rate, whether or not Ca2+ was included in the medium. These data suggest that the rate of cross-bridge detachment by ATP from the rigor state is not influenced by Ca2+. Analysis of the tension records, in terms of sequential detachment and reattachment reactions, provided a measure of cross-bridge reattachment rate and an alternate measure of the detachment rate. Detachment from the rigor state was approximately proportional to the ATP concentration, with a second-order rate constant of at least 5 X 10(5) M-1 S-1. Reattachment with force generation had no detectable dependence on the concentration of ATP liberated by photolysis. A simple kinetic model of the cross-bridge cycle in terms of chemically defined intermediates was compatible with most of the experimental data. The ATP dependence of cross-bridge detachment, the kinetics of maintained cross-bridge reattachment in the presence of Ca2+, and transient reattachment and final relaxation in the absence of Ca2+ were explained. In this model, reversibility of cross-bridge attachment and the steps leading to force production allow the relatively high observed detachment rate to be accommodated with other data relating to active contraction. These data include the steady ATPase rate of active muscle fibres and the fewer attached cross-bridges in active contractions compared to rigor.
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PMID:Initiation of active contraction by photogeneration of adenosine-5'-triphosphate in rabbit psoas muscle fibres. 648 46

Oxygen-derived free radicals (FRs) and other reactive oxygen species (ROS) have been implicated in the deleterious aspects of myocardial infarction, neutrophil infiltration and post-ischaemic reperfusion. We studied their actions on the main intracellular organelles of Ca-compartmentation and force production (the sarcoplasmic reticulum (SR) and myofilaments) in rat heart preparations by using two forms of chemical 'skinning'. We recorded Ca(2+)-activated isometric tension or, in saponin-treated trabeculae where SR function is maintained, either tension alone or tension and [Ca2+] transients evoked by caffeine. A single, brief application of xanthine/xanthine oxidase (generating superoxide; O2-) rapidly and irreversibly inhibits Ca(2+)-activated force with a dose- and time-dependent action. The kinetics of residual force production are slowed. Rigor induction (by ATP withdrawal) before and during exposure to .O2- prevents this action, suggesting the .O2(-)-sensitive site is occluded in rigor. Myofilament Ca-sensitivity and SR function were unaffected by .O2- or physiologically relevant [H2O2] (< 10 microM). Briefly applying 10-50 microM hypochlorous acid (HOCl) increased Ca-sensitivity and resting tension, but reduced Ca-activated force, in a manner consistent with 'rigor-like' crossbridges being involved. HOCl also provoked spontaneous Ca-release but reduced net SR Ca-uptake. Electron microscopy reveals that the myofilament lattice suffers a characteristic disruption by HOCl but not by .O2-. We conclude that FRs and ROS associated with myocyte dysfunction, reperfusion and inflammation could contribute to post-ischaemic myocardial dysfunction.
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PMID:Intracellular effects of free radicals and reactive oxygen species in cardiac muscle. 747 29

The complex time course of tension decay was investigated in fast-twitch permeabilized rabbit muscle fibers when they were relaxed from the rigor state using photochemical generation of ATP. A novel caged ATP compound, the P3-3',5'-dimethoxybenzoin ester of ATP (DMB-caged ATP), as well as the P3-1-(2-nitrophenyl)ethyl ester of ATP (NPE-caged ATP), have been used. DMB-caged ATP photolyzes at least three orders of magnitude more rapidly than NPE-caged ATP. The role of ADP on relaxation kinetics from rigor was examined by using apyrase to remove ADP from the rigor muscle solutions. The presence of Pi-sensitive states was investigated from the effect of Pi on relaxation. Rigor tension was varied enabling the influence of tension on the relaxation to be examined. The time course of relaxation was faster with DMB-caged ATP compared with NPE-caged ATP for concentrations of ATP released by photolysis greater than 0.7 mM. Most of the complexity in the relaxation tension records was caused by ADP. In the absence of ADP, tension decayed monotonically after photochemical release of ATP in a process whose rate was unaffected by Pi. In the presence of ADP, relaxation was more complex and tension passed through a maximum. A model invoking cooperative interactions involving ADP-containing myosin heads provides a reasonable description of the data.
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PMID:Kinetics of relaxation from rigor of permeabilized fast-twitch skeletal fibers from the rabbit using a novel caged ATP and apyrase. 769 82

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