UMLS:C0024591 - FACTA Search

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Query: UMLS:C0024591 (malignant hyperthermia)
2,353 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A defect in the skeletal muscle sarcoplasmic reticulum (SR) calcium release channel of malignant hyperthermia-susceptible (MHS) pigs greatly enhances SR calcium release in pigs homozygous for the malignant hyperthermia (MH) gene. In pigs heterozygous at this locus, rates of calcium release from isolated SR stimulated by Ca2+, ATP, or caffeine are intermediate to those of both MHS and normal SR [Mickelson et al. Am. J. Physiol. 257 (Cell Physiol. 26): C787-C794, 1989]. In this study bundles of intact muscle cells dissected from pigs of various genotypes were used to examine the effects of the MH gene on contractile responses to caffeine (direct stimulation of the SR) or to surface membrane (sarcolemma) depolarization (i.e., stimulation by way of the steps in excitation-contraction coupling). The caffeine threshold for contractures in the heterozygous muscles (5 mM) was intermediate to both types of homozygous muscles (2 mM for MHS and 10 mM for normal) as is the case with direct stimulation of calcium release from SR vesicles [Mickelson et al. Am. J. Physiol. 257 (Cell Physiol. 26): C787-C794, 1989]. Sarcolemmal depolarization was elicited by electrical stimuli or elevated extracellular potassium. Control twitch tension for MHS and heterozygous muscles did not differ and was significantly greater in both than in homozygous normal muscles. Potassium-induced contractures were significantly larger in MHS and heterozygous than in normal muscles. Thus, in heterozygous muscles, force production via sarcolemmal depolarization (twitches and potassium contractures) was enhanced as much as in homozygous MHS muscles. This could be the result of feedback from abnormal SR calcium channels producing altered (enhanced) transverse tubule to SR signal transduction.
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PMID:Excitation-contraction coupling in pigs heterozygous for malignant hyperthermia. 153 30

To clarify the mechanism by which volatile anesthetics initiate malignant hyperthermia (MH), we examined the effect of halothane, isoflurane, and enflurane on Ca2+ uptake and release by sarcoplasmic reticulum vesicles isolated from MH-susceptible (MHS) and normal pig muscle. Clinical concentrations of these anesthetics (0.1-0.5 mM) stimulated sarcoplasmic reticulum ATP-dependent Ca2+ uptake (maximal at approximately 4 mM), whereas 10-20 times the clinical anesthetic concentration inhibited Ca2+ uptake. There was no significant difference between MHS and normal sarcoplasmic reticulum in any aspect of Ca2+ uptake. Ca2+ release from 45Ca(2+)-filled sarcoplasmic reticulum vesicles in a 10(-8) M Ca(2+)-containing medium (pH 7.0) was significantly stimulated at clinical concentrations of all three volatile anesthetics (anesthetic concentration for the 50% stimulation of Ca2+ release = 0.096-0.22 mM); however, the rate constant for Ca2+ release from MHS sarcoplasmic reticulum was in all cases significantly greater than that from normal sarcoplasmic reticulum. Furthermore, 0.5 mM halothane had no effect on Ca2+ release from normal sarcoplasmic reticulum at pH values less than 6.8, although it could still significantly stimulate Ca2+ release from MHS sarcoplasmic reticulum even at pH 6.4; similar results were obtained for isoflurane and enflurane. These studies thus demonstrate that the interaction of volatile anesthetics with the sarcoplasmic reticulum Ca(2+)-release channel is altered in MHS porcine muscle such that the channel may be activated even at a Ca2+ concentration or pH that would be expected to maintain the channel in the closed state.
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PMID:The effects of volatile anesthetics on calcium regulation by malignant hyperthermia-susceptible sarcoplasmic reticulum. 160 85

Using the rapid filtration technique to investigate Ca2+ movements across the sarcoplasmic reticulum (SR) membrane, we compare the initial phases of Ca2+ release and Ca2+ uptake in malignant hyperthermia susceptible (MHS) and normal (N) pig SR vesicles. Ca2+ release is measured from passively loaded SR vesicles. MHS SR vesicles present a 2-fold increase in the initial rate of calcium release induced by 0.3 microM Ca2+ (20.1 +/- 2.1 vs. 6.3 +/- 2.6 nmol mg-1 s-1). Maximal Ca2+ release is obtained with 3 microM Ca2+. At this optimal concentration, rate of Ca2+ efflux in absence of ATP is 55 and 25 nmol mg-1 s-1 for MHS and N SR, respectively. Ca(2+)-induced Ca2+ release is inhibited by Mg2+ in a dose-dependent manner for both MHS and N pig SR vesicles (K1/2 = 0.2 mM). Caffeine (5 mM) and halothane (0.01% v/v) increase the Ca2+ sensitivity of Ca(2+)-induced Ca2+ release. ATP (5 mM) strongly enhances the rate of Ca2+ efflux (to about 20-40-fold in both MHS and N pig SR vesicles). Furthermore, both types of vesicles do not differ in their high-affinity site for ryanodine (Kd = 12 nM and Bmax = 6 pmol/mg), lipid content, ATPase activity and initial rate of Ca2+ uptake (0.948 +/- 0.034 vs. 0.835 +/- 0.130 mumol mg-1 min-1 for MHS and N SR, respectively). Our results show that MH syndrome is associated to a higher rate of Ca2+ release in the earliest phase of the calcium efflux.
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PMID:Abnormal rapid Ca2+ release from sarcoplasmic reticulum of malignant hyperthermia susceptible pigs. 164 97

A comparative study of mechanical and energetic parameters of superfused muscle strips from normal pigs and malignant hyperthermia susceptible (MHS) pigs has been conducted. Phosphorus nuclear magnetic resonance spectroscopy at 80.9 MHz and mechanical measurements were used to assess muscle metabolic state. At rest, biceps femoris biopsies of MHS pigs displayed reduced phosphocreatine level, higher inorganic phosphate, and a more acidic internal pH. In normal stimulated fibers, caffeine infusion (8 or 16 mM) induced twitch potentiation and contracture while twitch tension was reduced and contracture more pronounced in malignant fibers. In normal and malignant fibers, calcium ionophore A23187 produced effects similar to those of caffeine, with the exception of twitch potentiation, which was not observed. With caffeine or A23187, the ATP level remained constant throughout the rest-stimulation-recovery protocol for normal and malignant fibers but phosphocreatine dropped to undetectable levels upon stimulation of malignant fibers. In both treatments some heterogeneity in the resonances of inorganic phosphate was observed in malignant fibers together with a more severe acidosis which might play a role in the impairment of the excitation-contraction process.
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PMID:In vitro correlation between force and energy metabolism in porcine malignant hyperthermic muscle studied by 31P NMR. 165 12

A crude preparation of heavy sarcoplasmic reticulum (HSR) was isolated using 1 gram of muscle obtained from swine susceptible to malignant hyperthermia (MH) and from control swine. The caffeine and ATP concentration-dependency of Ca-release was determined using suction filtration with radioisotopic 45Ca as a tracer. Rates of release were determined using a rapid filtration system. Caffeine and ATP-induced Ca-release from MH-susceptible (MHS) HSR occurred at one-tenth the concentration of agonist that was required for control muscle HSR. No differences in rates and amounts of release were observed when agonist concentrations were used that caused maximum release for controls. However, at the threshold concentration of caffeine causing release for control HSR, the MHS HSR released 4-times as much Ca and at 3-times the rate of controls. These findings indicate that increased rates and amounts of Ca-release are due to the hypersensitivity of the Ca-release channel of HSR and that this abnormality can be detected using 1 gram of muscle.
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PMID:Microassay for malignant hyperthermia susceptibility: hypersensitive ligand-gating of the Ca channel in muscle sarcoplasmic reticulum causes increased amounts and rates of Ca-release. 215 20

When compared to normal pig sarcoplasmic reticulum (SR), SR from malignant hyperthermia susceptible (MHS) porcine skeletal muscle has been shown to exhibit an increased rate of calcium release, as well as alterations in [3H]ryanodine-binding activity in the presence of microM Ca2+ (Mickelson et al., 1988, J. Biol. Chem. 263, 9310). In the present study, various stimulators (adenine nucleotides and caffeine) and inhibitors (ruthenium red and Mg2+) of the SR calcium release channel were examined for effects on MHS and normal SR [3H]ryanodine binding. The apparent affinity of the MHS SR receptor for ryanodine in the presence of 10 mM ATP (Kd = 6.0 nM) or 10 mM caffeine (Kd = 28 nM) was significantly greater than that of the normal SR (Kd = 8.5 and 65 nM in 10 mM ATP or caffeine, respectively), the Bmax (12-16 pmol/mg) was similar in all cases. The Ca2+(0.5) for inhibition of [3H]ryanodine binding in the presence of 5 mM AMPPNP (238 vs 74 microM for MHS and normal SR, respectively) and the Ca2+(0.5) for stimulation of [3H]ryanodine binding in the presence of 5 mM caffeine (0.049 vs 0.070 microM for MHS and normal SR, respectively) were also significantly different. Furthermore, in the presence of optimal Ca2+, MHS SR [3H]ryanodine binding was more sensitive to caffeine stimulation (C0.5 of 1.7 vs 3.4 mM) and was less sensitive to ruthenium red (C0.5 of 1.9 vs 1.2 microM) or Mg2+ inhibition (C0.5 of 0.34 vs 0.21 mM) than was normal SR. These results further support the hypothesis that differences in the ryanodine/receptor calcium release channel regulatory properties are responsible for the abnormal calcium releasing activity of MHS SR.
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PMID:Stimulation and inhibition of [3H]ryanodine binding to sarcoplasmic reticulum from malignant hyperthermia susceptible pigs. 232 64

The role of sarcoplasmic reticulum (SR) in malignant hyperthermia (MH) was studied using the heavy microsomal fraction prepared from semitendinosus muscles of both normal and genetically MH-susceptible pigs. In the presence of ATP, SR was loaded with 70 nmol Ca2+/mg SR protein. Under these conditions, MH-SR demonstrated Ca2+-induced Ca2+ release (Ca-ICaR) and halothane-induced Ca2+ release (halothane-ICaR; halothane concentrations as low as 10 microM). Normal SR did not demonstrate these release phenomena. Dantrolene inhibited the halothane-ICaR, but did not inhibit the Ca-ICaR. Ruthenium red and tetracaine inhibited both types of Ca2+ release. From the measurement of passive Ca2+ efflux, it was shown that dantrolene did not affect the Ca2+ permeability of the SR itself, but suppressed only the halothane-induced increment of the permeability. The membrane order parameter of the SR, as measured by the spin-probe EPR technique, indicated that halothane disordered the lipid bilayer of MH-SR to a greater extent than it did of normal SR. This halothane disordering effect on MH-SR was antagonized by dantrolene. Ruthenium red and tetracaine did not antagonize the halothane disordering effect. These results raise the possibility that halothane could disturb the structure of the lipoprotein complex in MH-SR in such a way that it could open the Ca2+-release channels. The Ca2+ thus released further opens the channel through the Ca-ICaR mechanism in a positive feedback fashion, thus triggering the MH syndrome. The efficacy of dantrolene in ameliorating the MH syndrome might be related to the inhibition of this halothane effect.
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PMID:Abnormal membrane properties of the sarcoplasmic reticulum of pigs susceptible to malignant hyperthermia: modes of action of halothane, caffeine, dantrolene, and two other drugs. 242 70

Transverse tubule (TT) calcium transport and permeability were examined in the inherited skeletal muscle disorder malignant hyperthermia (MH). ATP-dependent calcium uptake by TT vesicles isolated from normal and MH-susceptible (MHS) pig muscle had a similar dependence on ionized Ca2+ concentration (K1/2 for Ca2+ of 0.21 +/- 0.04 and 0.25 +/- 0.05 microM for MHS and normal TT, respectively), as well as a similar Vmax (20.9 +/- 2.0 and 23.7 +/- 4.5 nmol Ca/mg protein/min for MHS and normal TT, respectively). Furthermore, the stimulation of calcium uptake by either calmodulin or cAMP-dependent protein kinase was similar in normal and MHS TT. Halothane concentrations greater than 2 mM inhibited calcium uptake by either normal or MHS TT to a similar extent (IC50 = 8 mM). Dantrolene (10 microM), nitrendipine (1 microM), and Bay K 8644 (1 microM) had no significant effect on either the initial rates of calcium uptake or maximal calcium accumulation of either MHS or normal TT vesicles. However, in the absence of any added agents, maximum calcium accumulation by MHS TT was significantly less than by normal TT (90 +/- 10 versus 130 +/- 9 nmol Ca/mg protein after 15 min of uptake). This difference was not due to an increased permeability of MHS TT to calcium, nor was it due to a difference in the sarcoplasmic reticulum contamination (less than 5%) of the MHS and normal preparations. Although our results indicate there is no significant defect in MHS TT calcium regulation, the diminished maximum calcium accumulation by MHS TT may contribute to the abnormal sarcoplasmic calcium homeostasis in skeletal muscle during an MH crisis.
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PMID:Transverse tubule calcium regulation in malignant hyperthermia. 253 1

Malignant hyperthermia (MH) is a pharmacogenetic disease in man and animals. It primarily involves skeletal muscle tissue, but other tissues might be affected to a lesser degree. Calcium homeostasis in muscle cells is upset in susceptible individuals, so that various agents and circumstances can increase the free, ionised intracellular calcium concentration to damaging levels. The primary defect is not known at present, but is believed to involve an abnormally sensitive calcium-induced calcium release mechanism. Thus small, localised increases in calcium concentration releases more calcium so that a vicious cycle is triggered. The increased calcium concentration causes multiple effects in the muscles by stimulating contraction and a hypermetabolic state, clinically observed as rigidity and fever. If demands on the homeostatic mechanisms to lower the calcium concentration become exhausted, and metabolism is insufficient to supply enough phosphocreatine and ATP, membrane potentials cannot be maintained, and permeability of the cell membranes increase. This causes loss of phosphate and H+ as well as K+ and Mg++, and later myoglobin and creatine kinase. Thereby oxidative metabolism is further impeded with formation of lactate as a result. The ensuing acidosis stimulates sympathetic innervation, resulting in tachycardia, high blood pressure, and vasoconstriction. Hyperkalemia causes arrhythmia. Dantrolene inhibits the release of calcium and can halt the process if given before depletion of the energy rich phosphates is too advanced.
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PMID:Pathophysiology of malignant hyperthermia. 269 55

31Phosphorus-NMR spectroscopy may have the potential to help in the noninvasive diagnosis of malignant hyperpyrexia (MH). Changes in the phosphate-metabolite profile of MH-susceptible (MHS) skeletal muscle occur more readily under conditions of anoxia than in control muscle. Induction of anoxia caused a rapid fall in intracellular phosphocreatine, an elevation of inorganic phosphate, and finally a diminution of ATP in MHS muscle. The onset of metabolic change was slower in control tissue. Increased oxygen consumption may occur in anoxic MHS muscle, which leads to accelerated glycolysis and a rapid fall in the intracellular high-energy phosphates. In MHS muscle an abnormality may exist in carbohydrate metabolism linked with poor resynthesis of the high-energy phosphates, which may be precipitated under anaerobic conditions. Accelerated muscle metabolism is also observed in the presence of 2 mM caffeine and 3% halothane in MHS muscle. Changes in the concentrations of metabolites could be mapped noninvasively under anoxic conditions using topical 31P-NMR.
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PMID:31P-NMR spectroscopy: the metabolic profile of malignant hyperpyrexic porcine skeletal muscle. 272 66

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