Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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

Malignant hyperthermia (MH) is a devastating, potentially lethal response to anesthetics that occurs in genetically predisposed individuals. The skeletal muscle ryanodine receptor (RYR1) gene has been linked to porcine and human MH. Furthermore, a Cys for Arg substitution tightly linked to, and potentially causative of, porcine MH has been identified in the ryanodine receptor. Analysis of 35 human families predisposed to malignant hyperthermia has revealed the presence, and cosegregation with phenotype, of the corresponding substitution in a single family. This substitution, by analogy to the findings in pig, may be causal for predisposition to MH in this family.
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PMID:A substitution of cysteine for arginine 614 in the ryanodine receptor is potentially causative of human malignant hyperthermia. 177 74

The halothane-caffeine contracture test is presently the most well-established method for identification of malignant hyperthermia susceptibility (MHS) or non-susceptibility (MHN). However, 10-20% of the patients tested are classified as equivocal (MHE), i.e. their susceptibility remains uncertain. A genetic disorder of the calcium releasing ryanodine receptor has been postulated recently. Therefore, 12 patients were tested in addition to the protocol of the European Malignant Hyperthermia Group (EMHG) for dose- and time-dependent contracture after ryanodine application. In this study, contracture of 0.2g appeared significantly earlier in MHS patients (17.5 +/- 1.7 min; n = 5) during cumulative ryanodine exposition (0.4-0.8-1.6-10.0 mumol/l) than in MHN (38.2 +/- 5.4 min; n = 5). A significant difference between MHS (10.0 +/- 1.7 min; n = 6) and MHN (19.8 +/- 0.6 min; n = 3) was also seen after bolus application of ryanodine (10.0 mumol/l). One patient classified as MHE according to the EMHG protocol, manifested as MHN after the ryanodine contracture test. This study supports previous work suggesting the ryanodine contracture test as an improvement in the in-vitro diagnosis of MH susceptibility.
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PMID:[Ryanodine-induced contractures for the diagnosis of malignant hyperthermia susceptibility]. 178 6

The sarcoplasmic reticulum (SR) ryanodine receptor was studied in SR vesicles isolated from the vastus intermedius skeletal muscle and cardiac muscle of malignant hyperthermia-susceptible (MHS) and normal pigs. MHS and normal heavy SR preparations isolated from the vastus intermedius muscle had similar yields, polyacrylamide gel electrophoretic patterns, Ca2(+)-ATPase activities, mitochondrial enzyme activities, calsequestrin contents, and maximal [3H]ryanodine-binding activities. However, while half-maximal calcium concentrations (Ca0.5) for stimulation of MHS and normal vastus intermedius SR [3H]ryanodine binding were not significantly different, the Ca0.5 for inhibition of [3H]ryanodine binding to MHS vastus intermedius SR (76 +/- 17 microM) was significantly greater than to normal SR (16 +/- 9 microM). MHS vastus intermedius SR also exhibited a significantly lower Kd value (62 +/- 15 nM) for [3H]ryanodine binding compared with normal SR (Kd = 284 +/- 102 nM). These values for MHS and normal vastus intermedius SR are similar to those reported using SR isolated from a muscle composed of predominantly fast-twitch fibers, indicating the similarity of the ryanodine receptor in fast- and slow-twitch skeletal muscles. In contrast, there were no differences in the properties of the ryanodine receptor of porcine cardiac SR isolated from MHS and normal pigs. We therefore conclude that there is a defect in the SR ryanodine receptor of both slow- and fast-twitch skeletal muscle fiber types but not in cardiac muscle of MHS individuals.
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PMID:Ryanodine receptor in different malignant hyperthermia-susceptible porcine muscles. 182 8

The binding properties of [3H]ryanodine, a specific ligand of the receptor complex that forms the Ca2+ release channel of sarcoplasmic reticulum, were studied in normal (N) and malignant hyperthermia-susceptible (MH) human skeletal muscle. Integrity of the solubilized ryanodine receptor was demonstrated by single-channel recordings in planar bilayers and by the changes produced by activators and inhibitors of the Ca2+ release channel on the binding properties of [3H]ryanodine. N and MH receptors were capable of binding [3H]ryanodine in a Ca(2+)-dependent manner. Scatchard analysis showed that a single binding site for [3H]ryanodine was present in either N or MH muscle. Binding affinity was approximately the same in N and MH (Kd approximately 7 nM), when the Ca2+ concentration was greater than 30 microM. At 0.3 microM Ca2+, MH receptors displayed a higher affinity for [3H]ryanodine (Kd = 4.1 +/- 1.0 nM) than N receptors (Kd = 7.1 +/- 0.8 nM). The presence of a single Kd for [3H]ryanodine in MH muscle, distinct from that of N muscle, indicated that MH muscle does not have detectable levels of N receptors. Ca2+ dependence of [3H]ryanodine binding further suggested that MH receptors had a higher affinity for Ca2+ (Kd[Ca2+] = 120 +/- 50 nM) than N receptors (Kd[Ca2+] = 250 +/- 80 nM). Caffeine increased [3H]ryanodine binding at submicromolar [Ca2+], and the effect was larger in MH. Apparent affinity constants for caffeine were 13 +/- 1.8 mM in N and 6 +/- 0.8 mM in MH receptors. Evidently, the ryanodine receptor of MH-susceptible human skeletal muscle has an unusually high sensitivity to Ca2+ which is augmented by caffeine.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Altered binding site for Ca2+ in the ryanodine receptor of human malignant hyperthermia. 187 69

Central core disease of muscle (CCD; MIM 117000) is a rare inheritable myopathy that is frequently found in association with susceptibility to malignant hyperthermia (MHS). This observation has prompted us to perform a linkage study in CCD families using various chromosome 19q probes that are linked to the MHS locus and map close to the ryanodine receptor gene (RYR1), a strong MHS candidate gene. Our genetic linkage data support a location of the CCD gene on proximal 19q13.1 and thus suggest that CCD and MHS may be allelic.
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PMID:Evidence for linkage of the central core disease locus to the proximal long arm of human chromosome 19. 188 18

Malignant hyperthermia (MH) is a potentially lethal condition in which sustained muscle contracture, with attendant hypercatabolic reactions and elevation in body temperature, are triggered by commonly used inhalational anaesthetics and skeletal muscle relaxants. In humans, the trait is usually inherited in an autosomal dominant fashion, but in halothane-sensitive pigs with a similar phenotype, inheritance of the disease is autosomal recessive or co-dominant. A simple and accurate non-invasive test for the gene is not available and predisposition to the disease is currently determined through a halothane- and/or caffeine-induced contracture test on a skeletal muscle biopsy. Because Ca2+ is the chief regulator of muscle contraction and metabolism, the primary defect in MH is believed to lie in Ca2+ regulation. Indeed, several studies indicate a defect in the Ca2+ release channel of the sarcoplasmic reticulum, making it a prime candidate for the altered gene product in predisposed individuals. We have recently cloned complementary DNA and genomic DNA encoding the human ryanodine receptor (the Ca2(+)-release channel of the sarcoplasmic reticulum) and mapped the ryanodine receptor gene (RYR) to region q13.1 of human chromosome 19 (ref. 14), in close proximity to genetic markers that have been shown to map near the MH susceptibility locus in humans and the halothane-sensitive gene in pigs. As a more definitive test of whether the RYR gene is a candidate gene for the human MH phenotype, we have carried out a linkage study with MH families to determine whether the MH phenotype segregates with chromosome 19q markers, including markers in the RYR gene. Co-segregation of MH with RYR markers, resulting in a lod score of 4.20 at a linkage distance of zero centimorgans, indicates that MH is likely to be caused by mutations in the RYR gene.
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PMID:Ryanodine receptor gene is a candidate for predisposition to malignant hyperthermia. 196 23

A number of genetic markers, including ATP1A3, TGFB, CKMM, and PRKCG, define the genetic region on human chromosome 19 containing the myotonic dystrophy locus. These and a number of other DNA probes have been mapped to mouse chromosome 7 utilizing a mouse Mus domesticus/Mus spretus interspecific backcross segregating for the genetic markers pink-eye dilution (p) and chinchilla (cch). The establishment of a highly syntenic group conserved between mouse chromosome 7 and human chromosome 19q indicates the likely position of the homologous gene locus to the human myotonic dystrophy gene on proximal mouse chromosome 7. In addition, we have mapped the muscle ryanodine receptor gene (Ryr) to mouse chromosome 7 and demonstrated its close linkage to the Atpa-2, Tgfb-1, and Ckmm cluster of genes. In humans, the malignant hyperthermia susceptibility locus (MHS) also maps close to this gene cluster. The comparative mapping data support Ryr as a candidate gene for MHS.
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PMID:Establishment of the mouse chromosome 7 region with homology to the myotonic dystrophy region of human chromosome 19q. 197 Jul 95

The recent cloning of cDNA encoding the Ca++ release channel (ryanodine receptor) of human sarcoplasmic reticulum has enabled us to use somatic cell hybrids to localize the ryanodine receptor gene (RYR) to the proximal long arm of human chromosome 19. Studies with additional hybrids containing deletions or translocations in chromosome 19 enabled us to localize RYR to 19q13.1 in a region distal to GPI/MAG and proximal to D19S18/DNF11. On the basis that the myotonic dystrophy (DM) locus maps near this region and that myotonia could result from a defect in the ryanodine receptor, we examined the linkage between the DM locus and RYR. Our results, showing several DM-RYR recombinants, rule out an RYR defect as the cause of DM. However, localization of RYR to a region of human chromosome 19 which is syntenic to an area of pig chromosome 6 containing the HAL gene responsible for porcine malignant hyperthermia supports the candidacy of RYR for this disorder.
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PMID:The human ryanodine receptor gene: its mapping to 19q13.1, placement in a chromosome 19 linkage group, and exclusion as the gene causing myotonic dystrophy. 197 Nov 50

Malignant hyperthermia (MH) is currently diagnosed by the caffeine-halothane contracture (CHC) test. In a previous study, this test was used to establish linkage between the human gene for MH susceptibility and the ryanodine receptor (RYR) gene. The current study extends the genetic linkage analysis to a large French-Canadian kindred. In this family, genetic linkage between RYR and MH genes was not demonstrable using the currently recommended limits of normal for the CHC test in the identification of MH-susceptible individuals. With CHC test threshold limits below those currently recommended, however, complete linkage between the RYR and MH genes was seen. Comparisons of CHC test results with genetic linkage studies will increase the diagnostic accuracy of both tests as well as generate new insights into the biology of MH.
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PMID:A comparison of the caffeine halothane muscle contracture test with the molecular genetic diagnosis of malignant hyperthermia. 206 33

Mechanisms and their pharmacology of Ca ion mobilization in skeletal, cardiac and smooth muscles are reviewed. In skeletal muscle, it is very likely that depolarization of T-tubule membrane causes conformational changes of dihydropyridine (DHP) receptors in the T-membrane, which in turn, most probably through some kind of protein-protein interaction, open the Ca2+ release channel in the sarcoplasmic reticulum (SR), the ryanodine receptor. Both the DHP receptor and ryanodine receptor have already been purified and sequenced, but the nature of the information transduction between these proteins still remains to be solved. Both of these proteins appear to have dual functions: the DHP receptor as a voltage sensor as described above and as a voltage-dependent Ca2+ channel and the ryanodine receptor as a physiological Ca2+ release channel and as a Ca2(+)-induced Ca2+ release (CICR) channel, an abnormality of which is known to cause malignant hyperthermia. In cardiac muscle, Ca2+ influx is essential not as the main Ca2+ source but to release Ca2+ from the SR, probably not through the CICR mechanism in the narrow sense but through a mechanism dependent on both Ca2+ and T-tubule depolarization. Several mechanisms of Ca2+ mobilization are used in smooth muscles and their features, different from those in striated muscles, are briefly reviewed.
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PMID:[Mechanisms and their pharmacology of mobilization of calcium ion in muscle cells]. 269 57


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