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A malignant hyperthermia–inducing mutation in RYR1 (R163C): consequent alterations in the functional properties of DHPR channels
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https://doi.org/10.1085/jgp.200910329Abstract
Bidirectional communication between the 1,4-dihydropyridine receptor (DHPR) in the plasma membrane and the type 1 ryanodine receptor (RYR1) in the sarcoplasmic reticulum (SR) is responsible for both skeletal-type excitation-contraction coupling (voltage-gated Ca(2+) release from the SR) and increased amplitude of L-type Ca(2+) current via the DHPR. Because the DHPR and RYR1 are functionally coupled, mutations in RYR1 that are linked to malignant hyperthermia (MH) may affect DHPR activity. For this reason, we investigated whether cultured myotubes originating from mice carrying an MH-linked mutation in RYR1 (R163C) had altered voltage-gated Ca(2+) release from the SR, membrane-bound charge movement, and/or L-type Ca(2+) current. In myotubes homozygous (Hom) for the R163C mutation, voltage-gated Ca(2+) release from the SR was substantially reduced and shifted ( approximately 10 mV) to more hyperpolarizing potentials compared with wild-type (WT) myotubes. Intramembrane charge movements of both Hom and heterozygous (Het) myotubes displayed hyperpolarizing shifts similar to that observed in voltage-gated SR Ca(2+) release. The current-voltage relationships for L-type currents in both Hom and Het myotubes were also shifted to more hyperpolarizing potentials ( approximately 7 and 5 mV, respectively). Compared with WT myotubes, Het and Hom myotubes both displayed a greater sensitivity to the L-type channel agonist +/-Bay K 8644 (10 microM). In general, L-type currents in WT, Het, and Hom myotubes inactivated modestly after 30-s prepulses to -50, -10, 0, 10, 20, and 30 mV. However, L-type currents in Hom myotubes displayed a hyperpolarizing shift in inactivation relative to L-type currents in either WT or Het myotubes. Our present results indicate that mutations in RYR1 can alter DHPR activity and raise the possibility that this altered DHPR function may contribute to MH episodes.
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