The proximal C-terminus of alpha(1C) subunits is necessary for junctional membrane targeting of cardiac L-type calcium channels

In cardiac myocytes, LTCCs (L-type calcium channels) form a functional signalling complex with ryanodine receptors at the JM (junctional membrane). Although the specific localization of LTCCs to the JM is critical for excitation-contraction coupling. their targeting mechanism is unclear. Transient transfection of GFP (green fluorescent protein)-alpha(1S) or GFP-alpha(1C) but not P/Q-type calcium channel alpha(1A), in dysgenic (alpha(1S)-null) GLT myotubes results in correct targeting of these LTCCs to the JMs and restoration of action-potential-induced Ca2+ transients. To identify the sequences of alpha(1C) responsible for JM targeting, we generated a range of alpha(1C)-alpha(1A) chimaeras, deletion mutants and alanine substitution mutants and studied their targeting properties in GLT myotubes. The results revealed that amino acids L-1681 QAGLRTL(1688) and P(1693)EIRRAIS(1700), predicted to form two adjacent alpha-helices in the proximal C-terminus, are necessary for the JM targeting of alpha(1C). The efficiency of restoration of action-potential-induced Ca2+ transients in GLT myotubes was significantly decreased by mutations in the targeting motif. JM targeting was not disrupted by the distal C-terminus of alpha(1C) which binds to the second alpha-helix. Therefore we have identified a new structural motif in the C-terminus of alpha(1C) that mediates the targeting of cardiac LTCCs to JMs independently of the interaction between proximal and distal C-termini of alpha(1C).ArticleBIOCHEMICAL JOURNAL. 448:221-231 (2012)journal articl

Restricting calcium currents is required for correct fiber type specification in skeletal muscle

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