Structural Basis for the Differential Effects of CaBP1 and Calmodulin on CaV1.2 Calcium-Dependent Inactivation

SummaryCalcium-binding protein 1 (CaBP1), a calmodulin (CaM) homolog, endows certain voltage-gated calcium channels (CaVs) with unusual properties. CaBP1 inhibits CaV1.2 calcium-dependent inactivation (CDI) and introduces calcium-dependent facilitation (CDF). Here, we show that the ability of CaBP1 to inhibit CaV1.2 CDI and induce CDF arises from interaction between the CaBP1 N-lobe and interlobe linker residue Glu94. Unlike CaM, where functional EF hands are essential for channel modulation, CDI inhibition does not require functional CaBP1 EF hands. Furthermore, CaBP1-mediated CDF has different molecular requirements than CaM-mediated CDF. Overall, the data show that CaBP1 comprises two structural modules having separate functions: similar to CaM, the CaBP1 C-lobe serves as a high-affinity anchor that binds the CaV1.2 IQ domain at a site that overlaps with the Ca2+/CaM C-lobe site, whereas the N-lobe/linker module houses the elements required for channel modulation. Discovery of this division provides the framework for understanding how CaBP1 regulates CaVs.

► CaBP1 lobes have separable functions ► CaBP1 N-lobe-linker interactions are central to CaV modulation ► Ca2+/CaBP1 C-lobe and Ca2+/CaM C-lobe binding sites on CaV1.2 IQ domain overlap ► Functional EF hands are not essential for CaBP1 inhibition of CaV1.2 CDI