Abstract
Ryanodine receptors (RyRs) are a family of intracellular Ca(2+) channels that are regulated by calmodulin (CaM). At low Ca(2+) concentrations (<1 microM), CaM activates RyR1 and RyR3 and inhibits RyR2. At elevated Ca(2+) concentrations (>1 microM), CaM inhibits all three RyR isoforms. Here we report that the regulation of recombinant RyR3 by CaM is sensitive to redox regulation. RyR3 in the presence of reduced glutathione binds CaM with 10-15-fold higher affinity, at low and high Ca(2+) concentrations, compared to in the presence of oxidized glutathione. However, compared to RyR1 assayed at low Ca(2+) concentrations under both reducing and oxidizing conditions, CaM binds RyR3 with reduced affinity but activates RyR3 to a greater extent. Under reducing conditions, RyR1 and RyR3 activities are inhibited with a similar affinity at [Ca(2+)] > 1 microM. Mutagenesis studies demonstrate that RyR3 contains a single conserved CaM binding site. Corresponding amino acid substitutions in the CaM binding site differentially affect CaM binding and CaM regulation of RyR3 and those of the two other isoforms. The results support the suggestion that other isoform dependent regions have a major role in the regulation of RyRs by CaM [Yamaguchi et al. (2004) J. Biol. Chem. 279, 36433-36439].
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