Abstract
Voltage-gated L-type CaV1.2 channels in cardiomyocytes exist as heteromeric complexes. Co-expression of CaVα2δ1 with CaVβ/CaVα1 proteins reconstitutes the functional properties of native L-type currents, but the interacting domains at the CaV1.2/CaVα2δ1 interface are unknown. Here, a homology-based model of CaV1.2 identified protein interfaces between the extracellular domain of CaVα2δ1 and the extracellular loops of the CaVα1 protein in repeats I (IS1S2 and IS5S6), II (IIS5S6), and III (IIIS5S6). Insertion of a 9-residue hemagglutinin epitope in IS1S2, but not in IS5S6 or in IIS5S6, prevented the co-immunoprecipitation of CaV1.2 with CaVα2δ1. IS1S2 contains a cluster of three conserved negatively charged residues Glu-179, Asp-180, and Asp-181 that could contribute to non-bonded interactions with CaVα2δ1. Substitutions of CaV1.2 Asp-181 impaired the co-immunoprecipitation of CaVβ/CaV1.2 with CaVα2δ1 and the CaVα2δ1-dependent shift in voltage-dependent activation gating. In contrast, single substitutions in CaV1.2 in neighboring positions in the same loop (179, 180, and 182–184) did not significantly alter the functional up-regulation of CaV1.2 whole-cell currents. However, a negatively charged residue at position 180 was necessary to convey the CaVα2δ1-mediated shift in the activation gating. We also found a more modest contribution from the positively charged Arg-1119 in the extracellular pore region in repeat III of CaV1.2. We conclude that CaV1.2 Asp-181 anchors the physical interaction that facilitates the CaVα2δ1-mediated functional modulation of CaV1.2 currents. By stabilizing the first extracellular loop of CaV1.2, CaVα2δ1 may up-regulate currents by promoting conformations of the voltage sensor that are associated with the channel's open state.
Highlights
Voltage-gated L-type CaV1.2 channels in cardiomyocytes exist as heteromeric complexes
IIS5S6 of CaV1.1 are located within atomic distance of residues in the von Willebrand factor A (VWA) structural domain of CaV␣2␦1, whereas residues in IIIS5S6 of CaV1.1 are closer to residues in the cache1 domain of CaV␣2␦1
The HA tag was inserted after Ser-182 in IS1S2 (CaV1.2–HA Ser-182), after Glu-331 in IS5S6 (CaV1.2–HA Glu-331), and after Asp-710 in IIS5S6 (CaV1.2–HA Asp-710)
Summary
Functional regulation of CaV1.2 by CaV␣2␦1 requires direct interaction between the two proteins [30]. To evaluate whether the insertion of the HA epitope disturbed the physical interaction between the two proteins, co-immunoprecipitation assays were carried out using c-Myc-tagged CaV3 on anti-c-Myc-coated beads as bait (Fig. 3) [30]. The three proteins (CaV1.2, CaV␣2␦1, and CaV3) were detected at the expected molecular mass in the total cell lysates (“input lanes”) when either CaV1.2 WT, CaV1.2–HA (Ser-182), CaV1.2–HA (Glu-331), or CaV1.2–HA (Asp-710) was co-expressed with CaV3 and mCherry–CaV␣2␦1–HA (Fig. 3A). CaV1.2–HA (Ser-182) was clearly present in the flow-through (Fig. 3C) fraction These data indicate that disrupting the first extracellular loop IS1S2 in CaV1.2 prevents the functional interaction with CaV␣2␦1 and suggest that the IS1S2 extracellular loop contains the elements that are important for carrying the physical interaction between the two proteins. NE means: no inward current;*, p Ͻ 0.01;**, p Ͻ 0.001
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