Calmodulin binding is dispensable for Rem-mediated Ca2+ channel inhibition

GTPases of the Ras-related RGK family are negative regulators of high voltage-activated (HVA) Ca²⁺ channel activity. In this study, we examined the role of calmodulin (CaM) association in Rem-mediated Ca²⁺ channel inhibition. We found that the Rem/CaM interaction is Ca²⁺-dependent, and that truncation of the Rem C-terminus before position 277 prevents CaM binding. Serial mutagenesis of the Rem C-terminus between residues 265 and 276 to alanine generated two mutants (Rem^L271A and Rem^L274A) that displayed reduced CaM binding, and a subset of these mutants displayed significantly lower cell periphery localization than Rem^WT. However, reductions in CaM association or membrane trafficking did not affect function, as all Rem mutants could completely inhibit Ca²⁺ channels. The Rem^1–275 truncation mutant partially inhibited Ca²⁺ channel activity despite its inability to bind CaM. Taken together, these studies indicate that CaM association is not essential for either Rem-mediated Ca²⁺ channel inhibition or plasma membrane localization. Jonathan Satin is an established investigator of the American Heart Association.