ABSTRACT
The L-type Ca2+ channel CaV1.2 governs gene expression, cardiac contraction, and neuronal activity. Binding of α-actinin to the IQ motif of CaV1.2 supports its surface localization and postsynaptic targeting in neurons. We report a bi-functional mechanism that restricts CaV1.2 activity to its target sites. We solved separate NMR structures of the IQ motif (residues 1646-1664) bound to α-actinin-1 and to apo-calmodulin (apoCaM). The CaV1.2 K1647A and Y1649A mutations, which impair α-actinin-1 but not apoCaM binding, but not the F1658A and K1662E mutations, which impair apoCaM but not α-actinin-1 binding, decreased single channel open probability, gating charge movement, and its coupling to channel opening. Thus, α-actinin recruits CaV1.2 to defined surface regions and simultaneously boosts its open probability so that CaV1.2 is mostly active when appropriately localized.