Oxidation of the skeletal muscle Ca2+ release channel alters calmodulin binding

Abstract

This study presents evidence for a close relationship between the oxidation state of the skeletal muscle Ca²⁺ release channel (RyR1) and its ability to bind calmodulin (CaM). CaM enhances the activity of RyR1 in low Ca²⁺ and inhibits its activity in high Ca²⁺. Oxidation, which activates the channel, blocks the binding of¹²⁵I-labeled CaM at both micromolar and nanomolar Ca²⁺concentrations. Conversely, bound CaM slows oxidation-induced cross-linking between subunits of the RyR1 tetramer. Alkylation of hyperreactive sulfhydryls (2+-free¹²⁵I-CaM but not Ca²⁺/¹²⁵I-CaM binding. These studies suggest that 1) the sites on RyR1 for binding apocalmodulin have features distinct from those of the Ca²⁺/CaM site, 2) oxidation may alter the activity of RyR1 in part by altering its interaction with CaM, and 3) CaM may protect RyR1 from oxidative modifications during periods of oxidative stress.