Abstract
Regulation of CaV1.2 channels in cardiac myocytes by the β-adrenergic pathway requires a signaling complex in which the proteolytically processed distal C-terminal domain acts as an autoinhibitor of channel activity and mediates up-regulation by the β-adrenergic receptor and PKA bound to A-kinase anchoring protein 15 (AKAP15). We examined the significance of this distal C-terminal signaling complex for CaV1.2 and CaV1.3 channels in neurons. AKAP15 co-immunoprecipitates with CaV1.2 and CaV1.3 channels. AKAP15 has overlapping localization with CaV1.2 and CaV1.3 channels in cell bodies and proximal dendrites and is closely co-localized with CaV1.2 channels in punctate clusters. The neuronal AKAP MAP2B, which also interacts with CaV1.2 and CaV1.3 channels, has complementary localization to AKAP15, suggesting different functional roles in calcium channel regulation. Studies with mice that lack the distal C-terminal domain of CaV1.2 channels (CaV1.2ΔDCT) reveal that AKAP15 interacts with neuronal CaV1.2 channels via their C terminus in vivo and is co-localized in punctate clusters of CaV1.2 channels via that interaction. CaV1.2ΔDCT neurons have reduced L-type calcium current, indicating that the distal C-terminal domain is required for normal functional expression in vivo. Deletion of the distal C-terminal domain impairs calcium-dependent signaling from CaV1.2 channels to the nucleus, as shown by reduction in phosphorylation of the cAMP response element-binding protein. Our results define AKAP signaling complexes of CaV1.2 and CaV1.3 channels in brain and reveal three previously unrecognized functional roles for the distal C terminus of neuronal CaV1.2 channels in vivo: increased functional expression, anchoring of AKAP15 and PKA, and initiation of excitation-transcription coupling.
Highlights
Functional CaV1 channels are multimeric complexes composed of pore-forming ␣1 and associated ␣2␦, , and in some cases, ␥ subunits (14 –19)
Deletion of the distal C-terminal domain of CaV1.2 channels in vivo decreased L-type calcium currents, altered the localization of A-kinase anchoring protein 15 (AKAP15), and impaired coupling of calcium channel activation to phosphorylation of cAMP response element-binding protein (CREB). These results show that AKAP15 anchors protein kinase (PKA) to the distal C terminus of CaV1.2 and CaV1.3 channels in brain neurons in vivo and reveal three previously unrecognized functional roles for the distal C-terminal signaling complex of CaV1.2 channels in neurons in vivo: increased
To examine if AKAP15 associates with CaV1.2 channels in brain, immunoprecipitation experiments were performed on solubilized extracts of adult mouse brain membranes prepared with either Triton X-100 or digitonin as detergent
Summary
Functional CaV1 channels are multimeric complexes composed of pore-forming ␣1 and associated ␣2␦, , and in some cases, ␥ subunits (14 –19) These channels have an extended C terminus containing many protein interaction sites for regulation [5]. Deletion of the distal C-terminal domain of CaV1.2 channels in vivo decreased L-type calcium currents, altered the localization of AKAP15, and impaired coupling of calcium channel activation to phosphorylation of CREB. These results show that AKAP15 anchors PKA to the distal C terminus of CaV1.2 and CaV1.3 channels in brain neurons in vivo and reveal three previously unrecognized functional roles for the distal C-terminal signaling complex of CaV1.2 channels in neurons in vivo: increased. Functional Roles of a C-terminal Signaling Complex in Brain Neurons functional expression, anchoring of AKAP15/PKA, and initiation of excitation-transcription coupling
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