• Anesthesiology · Aug 2020

    Transient Receptor Potential Cation Channels and Calcium Dyshomeostasis in a Mouse Model Relevant to Malignant Hyperthermia.

    • Jose Rafael Lopez, Vikas Kaura, Phillip Hopkins, Xiaochen Liu, Arkady Uryach, Jose Adams, and Paul D Allen.
    • From the Department of Molecular Biosciences, School of Veterinary Medicine, University of California at Davis, Davis, California (J.R.L., P.D.A.) the Department of Research (J.R.L.) the Division of Neonatology (A.U., J.A.), Mount Sinai Medical Center, Miami, Florida the Malignant Hyperthermia Investigation Unit, St. James' University Hospital, Leeds, United Kingdom (V.K., P.H., X.L., P.D.A.).
    • Anesthesiology. 2020 Aug 1; 133 (2): 364376364-376.

    BackgroundUntil recently, the mechanism for the malignant hyperthermia crisis has been attributed solely to sustained massive Ca release from the sarcoplasmic reticulum on exposure to triggering agents. This study tested the hypothesis that transient receptor potential cation (TRPC) channels are important contributors to the Ca dyshomeostasis in a mouse model relevant to malignant hyperthermia.MethodsThis study examined the mechanisms responsible for Ca dyshomeostasis in RYR1-p.G2435R mouse muscles and muscle cells using calcium and sodium ion selective microelectrodes, manganese quench of Fura2 fluorescence, and Western blots.ResultsRYR1-p.G2435R mouse muscle cells have chronically elevated intracellular resting calcium and sodium and rate of manganese quench (homozygous greater than heterozygous) compared with wild-type muscles. After exposure to 1-oleoyl-2-acetyl-sn-glycerol, a TRPC3/6 activator, increases in intracellular resting calcium/sodium were significantly greater in RYR1-p.G2435R muscles (from 153 ± 11 nM/10 ± 0.5 mM to 304 ± 45 nM/14.2 ± 0.7 mM in heterozygotes P < 0.001] and from 251 ± 25 nM/13.9 ± 0.5 mM to 534 ± 64 nM/20.9 ± 1.5 mM in homozygotes [P < 0.001] compared with 123 ± 3 nM/8 ± 0.1 mM to 196 ± 27 nM/9.4 ± 0.7 mM in wild type). These increases were inhibited both by simply removing extracellular Ca and by exposure to either a nonspecific (gadolinium) or a newly available, more specific pharmacologic agent (SAR7334) to block TRPC6- and TRPC3-mediated cation influx into cells. Furthermore, local pretreatment with SAR7334 partially decreased the elevation of intracellular resting calcium that is seen in RYR1-p.G2435R muscles during exposure to halothane. Western blot analysis showed that expression of TRPC3 and TRPC6 were significantly increased in RYR1-p.G2435R muscles in a gene-dose-dependent manner, supporting their being a primary molecular basis for increased sarcolemmal cation influx.ConclusionsMuscle cells in knock-in mice expressing the RYR1-p.G2435R mutation are hypersensitive to TRPC3/6 activators. This hypersensitivity can be negated with pharmacologic agents that block TRPC3/6 activity. This reinforces the working hypothesis that transient receptor potential cation channels play a critical role in causing intracellular calcium and sodium overload in malignant hyperthermia-susceptible muscle, both at rest and during the malignant hyperthermia crisis.

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