Na<sub>V</sub>1.2 EFL domain allosterically enhances Ca<sup>2+</sup> binding to sites I and II of WT and pathogenic calmodulin mutants bound to the channel CTD.

Overview

Neuronal voltage-gated sodium channel Na_V1.2 C-terminal domain (CTD) binds calmodulin (CaM) constitutively at its IQ motif. A solution structure (6BUT) and other NMR evidence showed that the CaM N domain (CaM_N) is structurally independent of the C-domain (CaM_C) whether CaM is bound to the Na_V1.2_IQp (1,901-1,927) or Na_V1.2_CTD (1,777-1,937) with or without calcium. However, in the CaM + Na_V1.2_CTD complex, the Ca²⁺ affinity of CaM_N was more favorable than in free CaM, while Ca²⁺ affinity for CaM_C was weaker than in the CaM + Na_V1.2_IQp complex. The CTD EF-like (EFL) domain allosterically widened the energetic gap between CaM domains. Cardiomyopathy-associated CaM mutants (N53I(N54I), D95V(D96V), A102V(A103V), E104A(E105A), D129G(D130G), and F141L(F142L)) all bound the Na_V1.2 IQ motif favorably under resting (apo) conditions and bound calcium normally at CaM_N sites. However, only N53I and A102V bound calcium at CaM_C sites at [Ca²⁺] < 100 μM. Thus, they are expected to respond like wild-type CaM to Ca²⁺ spikes in excitable cells.