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)

1. In malignant hyperthermia susceptible muscle fibers, the calmodulin antagonist, W-7 (10 microM), evoked contractures and potentiated halothene (3%) induced contracture. No effect was seen at 0.1 or 1.0 microM) W-7. 2. Dantrolene sodium (6 microM) prevented and reversed W-7 induced contracture: nifedipine did not. 3. In chemically skinned fibers, 10 microM, 1.0 microM, and 0.1 microM W-7 released 100%, 30%, and 10% of stored calcium respectively, and the effect of 10 microM W-7 was irreversible in that the SR was unable to re-sequestor calcium after exposure to the drug. 4. The release of calcium by W-7 was not prevented by exogenously added calmodulin (3 microM), nor mimicked by mastoparan (10 microM). 5. Calcium release by W-7 appears to be independent of calmodulin inhibition.
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PMID:W-7, a calmodulin antagonist, and contracture of malignant hyperthermia susceptible skeletal muscle. 135 16

1. Native 6% Laemmli gels were used to resolve 7 protein kinase activity bands in control and malignant hyperthermia (MH)-susceptible porcine and human skeletal muscle extracts. 2. MH-susceptible samples were consistently more active than the controls. 3. Following halothane treatment, a 43 kDa component displayed increased phosphorylation by a calcium-calmodulin dependent kinase in MH-susceptible vs control human samples. 4. Increased phosphorylation of additional endogenous protein components of molecular mass 116 and 60 kDa was observed.
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PMID:Kinase activity and protein phosphorylation in control and malignant hyperthermic skeletal muscle. 201 52

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

In Quin-2-loaded erythrocytes of two genetically hypertensive rat strains (spontaneously hypertensive rats, SHR, and the Milan hypertensive strain, MHS) intracellular Ca2+ (Ca2+i) concentration and 45Ca influx rate were increased by 25-30 and 15-20% respectively, in comparison with normotensive controls (Wistar-Kyoto rats, WKY, and rats of the Milan normotensive strain, MNS). After 4 h incubation in the presence of 5 mmol/l sodium vanadate (Na3VO4) as an inhibitor of Ca-ATPase, 45Ca content of intact erythrocytes of SHR was twofold higher while erythrocyte count of stroke-prone SHR (SHRSP) was threefold higher than in WKY. This increase was observed in SHR during the pre-hypertensive stage. Under the same conditions, no difference was noted between MHS and MNS rats. The rate of 32P influx, as well as the concentration of exchangeable chloride, was studied. We failed to detect any significant differences in either parameter between hypertensive and normotensive rats, suggesting that altered cell membrane potential was not responsible for allied Ca fluxes. Erythrocyte shrinking, however, resulted in a two to threefold increase in the rate of 45Ca influx. Neither the rate of 45Ca influx nor Ca2+i were modified by the inhibitor of calmodulin-dependent reactions, R24571 (10 mumol/l). It is suggested that the higher rate of Ca2+ influx in Quin-2-loaded erythrocytes of SHR, as well as the increment in 45Ca content in intact erythrocytes treated with orthovanadate, is due to a change in membrane skeleton organization and cell shrinkage.
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PMID:Calcium transport in erythrocytes of rats with spontaneous hypertension. 284 88

1. Because calcium antagonist drugs increase contracture in both control and malignant hyperpyrexia susceptible (MHS) skeletal muscle, the effect of these drugs on the sarcoplasmic reticulum (SR) was investigated. 2. The calmodulin antagonist drugs inhibited the Ca2+ dependent ATPase activity and the ATP-dependent Ca2+ uptake, and accelerated the efflux of Ca2+ from isolated SR preparations from both control and MHS skeletal muscle. These effects of calmodulin antagonist drugs on SR Ca2+ transport functions were consistent with their in vitro pharmacological effects on control and MHS muscle.
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PMID:The effects of calmodulin antagonist drugs on isolated sarcoplasmic reticulum from malignant hyperpyrexia susceptible swine. 296 33

To investigate possible abnormalities in erythrocyte membrane enzyme activities in the pharmacogenetic disorder MH, membrane ATPase activities have been examined in erythrocyte ghosts prepared from red blood cells of MHS and normal swine. While no differences were noted in Mg2+-ATPase activities, the (Na+, K+)-ATPase activity of MHS erythrocyte ghosts was less than that of normal ghosts. Ca2+-ATPase activity exhibited low- and high-affinity Ca2+-binding sites in both types of erythrocyte ghost. While the Km for Ca2+ was greater for normal than for MHS erythrocyte ghosts at the high-affinity Ca2+-binding site, the reverse was true at the low-affinity Ca2+-binding site. Irrespective of the type of calcium binding site occupied, the Vmax for normal erythrocyte ghost Ca2+-ATPase activity was greater than that for MHS ghosts. In the presence of calmodulin, there was now no difference between MHS and normal erythrocyte ghosts in either the Km for Ca2+ or the Vmax of the Ca2+-ATPase activity. To determine if the calcium pumping activity of intact MHS and normal pig erythrocytes differed, calcium efflux from the 45Ca-loaded erythrocytes was determined; this activity was significantly greater for MHS than for normal erythrocytes. Thus, the present study confirms that there are abnormalities in the membranes of MHS pig red blood cells. However, we conclude that these abnormalities are unlikely to result in an impaired ability of MHS erythrocytes to regulate their cytosolic Ca2+ concentration.
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PMID:Erythrocyte membrane ATPase and calcium pumping activities in porcine malignant hyperthermia. 296 54

Sarcolemmal properties implicated in the skeletal muscle disorder, malignant hyperthermia (MH), were examined using sarcolemma-membrane vesicles isolated from normal and MH-susceptible (MHS) porcine skeletal muscle. MHS and normal sarcolemma did not differ in the distribution of the major proteins, cholesterol or phospholipid content, vesicle size and sidedness, (Na+ + K+)-ATPase activity, ouabain binding, or adenylate cyclase activity (total and isoproterenol sensitivity). The regulation of the initial rates of MHS and normal sarcolemmal ATP-dependent calcium transport (calcium uptake after 1 min) by Ca2+ (K1/2 = 0.64-0.81 microM), calmodulin, and cAMP-dependent protein kinase were similar. However, when sarcolemmal calcium content was measured at either 2 or 20 min after the initiation of active calcium transport, a significant difference between MHS and normal sarcolemmal calcium uptake became apparent, with MHS sarcolemma accumulating approximately 25% less calcium than normal sarcolemma. Calcium transport by MHS and normal sarcolemma, at 2 or 20 min, had a similar calmodulin dependence (C1/2 = 150 nM), and was stimulated to a similar extent by cAMP-dependent protein kinase or calmodulin. Halothane inhibited MHS and normal sarcolemmal active calcium uptake in a similar fashion (half-maximal inhibition at 10 mM halothane), while dantrolene (30 microM) and nitrendipine (1 microM) had little effect on either MHS or normal sarcolemmal calcium transport. After 20 min of ATP-supported calcium uptake, 2 mM EGTA plus 10 microM sodium orthovanadate were added to initiate sarcolemmal calcium efflux. Following an initial rapid phase of calcium release, an extended slow phase of calcium efflux (k = 0.012 min-1) was similar for both MHS and normal sarcolemma vesicles. We conclude that although a number of sarcolemmal properties, including passive calcium permeability, are normal in MH, a small but significant defect in MHS sarcolemmal ATP-dependent calcium transport may contribute to the abnormal calcium homeostasis and altered contractile properties of MHS skeletal muscle.
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PMID:Skeletal muscle sarcolemma in malignant hyperthermia: evidence for a defect in calcium regulation. 302 85

The anaesthetic complication malignant hyperpyrexia (MH) is due to an elevation of the myoplasmic Ca2+ concentration. Examination of calmodulin isolated from MH susceptible swine suggests that the disorder in calcium regulation in MH is not due to an abnormality in calmodulin.
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PMID:Calmodulin in porcine malignant hyperpyrexia. 303 4

Junctional sarcoplasmic reticulum (SR) vesicles isolated from back muscles of normal and malignant hyperthermia susceptible (MHS) pigs were phosphorylated by addition of MgATP in the presence of 5 mM Ca2+ and 1 microM calmodulin (CaM). The major site of phosphorylation was a 60 kDa protein both in normal and MHS SR. The maximal amount of phosphorylation in MHS SR (5 pmol P/mg SR) was significantly lower than that in the normal SR (12 pmol P/mg SR). The phosphorylated 60 kDa protein was spontaneously dephosphorylated both in normal and MHS SR. Ca2+ release from the passively loaded SR was induced by a Ca2+-jump, and monitored by stopped-flow fluorometry using chlorotetracycline. In the absence of preincubation with MgATP, no significant difference was found in any of the kinetic parameters of Ca2+ release between normal and MHS SR. Upon addition of 20 microM MgATP to the passively loaded SR to phosphorylate the 60 kDa protein, the initial rate of Ca2+ release in normal SR significantly decreased from 659 +/- 102 to 361 +/- 105 nmol Ca2+/mg SR per s, whereas in MHS SR the rate decreased from 749 +/- 124 to 652 +/- 179 nmol Ca2+/mg SR per s. Addition of 20 microM adenosine 5'-[beta, gamma-imido]triphosphate (p[NH]ppA) did not significantly alter the initial rate of Ca2+ release both in normal and MHS SR. These results suggest that the previously reported higher Ca2+ release rate in MHS SR (Kim et al. (1984) Biochim. Biophys. Acta 775, 320-327) is at least partly due to the reduced extent of the Ca2+/CaM-dependent phosphorylation of the 60 kDa protein. Two-dimensional gel electrophoresis study showed that amount of a protein with Mr = 55,000 was significantly lower in MHS SR than in normal SR suggesting that the abnormally lower amount of 55 kDa protein would cause the lower amount of phosphorylation of the 60 kDa protein in MHS SR.
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PMID:Involvement of the 60 kDa phosphoprotein in the regulation of Ca2+ release from sarcoplasmic reticulum of normal and malignant hyperthermia susceptible pig muscles. 319 Nov 23

1. Landrace swine were identified as malignant hyperpyrexia susceptible (MHS) or control by the contracture responses of gracilis muscle fibre bundles to 3% halothane, 2 mmol/l caffeine and 80 mmol/l KCl. The effects of calmodulin-antagonist drugs on the contractile behaviour of control and MHS preparations were investigated in vitro. 2. Calmodulin-antagonists at micromolar concentrations induced contracture in both control and MHS muscle. Pretreatment of MHS muscle with calmodulin-antagonist drugs potentiated its response to halothane and caffeine. 3. These results suggest that calmodulin-antagonist drugs cause an increase in myoplasmic Ca2+ concentration in both control and MHS muscle.
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PMID:Calmodulin-antagonist drugs and porcine malignant hyperpyrexia. 327 20

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