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W172263089 abstract "Mechanisms governing the trafficking of cardiac voltage dependent calcium channels (Ca v 1.2) remain largely unknown. We have previously shown that neuronal calcium channels are internalized into clathrin coated vesicles upon G protein coupled receptor (GPCR) activation. Here, we hypothesize that GPCR mediated signaling regulate Ca v 1.2 trafficking and surface expression through interaction with cytoskeletal and signaling molecules. Methods : Sequential immunoprecipitation in adult rat cardiomyocytes was used to investigate the interaction between Ca v 1.2, cytoskeletal and signaling molecules. Live cell imaging and immunofluorescence microscopy were used to measure changes in the cellular localization of Ca v 1.2 and these proteins upon activation of GPCR signaling. Results : Cav1.2 interacts with ANK2, βArr1 and spectrin. Sustained β adrenergic receptor (βAR) activation increases Cav1.2/spectrin and decreases Ca v 1.2/ANK2 and Ca v 1.2/βArr1 interactions. Sustained βAR activation induces rapid (<5 min) Cav1.2 internalization and dissociation from ANK2 as Ca v 1.2/ANK2 co-localization is markedly reduced (−58% p<0.01) in isoproterenol treated myocytes. A cell permeant peptide (1.4 μg/ml) that disrupts Ca v 1.2/ANK2 interaction decreases (−40±12%, p<0.01) Cav1.2 cell surface expression. Pretreatment with pertussis toxin prevents Ca v 1.2 internalization suggesting that G i/o mediates this response. Similarly, Src kinase inhibition reduces (by 90%) Ca v 1.2 internalization. Differential labeling of pre-existing Ca v 1.2 at the cell membrane and newly inserted Ca v 1.2 using fluorophore conjugated dihydropyridines reveal that activation of G i/o proteins underlies Ca v 1.2 internalization and insertion. In contrast, activation of the muscarinic M2 receptor (10μM carbachol) causes only insertion of new channels (n=14) and fails to alter the association of Ca v 1.2 with ANK2 and spectrin. Finally PI3 kinase inhibition (10nM wortmannin) prevents Ca v 1.2 membrane insertion. Conclusions : Our findings reveal novel signaling mechanisms that regulate Ca v 1.2 trafficking, internalization and membrane insertion in a receptor subtype dependent manner. These mechanisms may be central to pathologies associated with a hyperadrenergic state. This research has received full or partial funding support from the American Heart Association, AHA National Center." @default.
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W172263089 date "2008-10-28" @default.
W172263089 modified "2023-09-24" @default.
W172263089 title "Abstract 5309: beta-Arrestin 1 (bArr1) and Ankyrin 2 (ANK2) Regulate Cav1.2 Trafficking through Complex G Protein Mediated Signaling" @default.
W172263089 doi "https://doi.org/10.1161/circ.118.suppl_18.s_524-b" @default.
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