First Author | Cheng EP | Year | 2011 |
Journal | Circ Res | Volume | 109 |
Issue | 3 | Pages | 255-61 |
PubMed ID | 21700933 | Mgi Jnum | J:186599 |
Mgi Id | MGI:5432677 | Doi | 10.1161/CIRCRESAHA.111.248252 |
Citation | Cheng EP, et al. (2011) Restoration of normal L-type Ca2+ channel function during Timothy syndrome by ablation of an anchoring protein. Circ Res 109(3):255-61 |
abstractText | RATIONALE: L-type Ca(2+) (Ca(V)1.2) channels shape the cardiac action potential waveform and are essential for excitation-contraction coupling in heart. A gain-of-function G406R mutation in a cytoplasmic loop of Ca(V)1.2 channels causes long QT syndrome 8 (LQT8), a disease also known as Timothy syndrome. However, the mechanisms by which this mutation enhances Ca(V)1.2-LQT8 currents and generates lethal arrhythmias are unclear. OBJECTIVE: To test the hypothesis that the anchoring protein AKAP150 modulates Ca(V)1.2-LQT8 channel gating in ventricular myocytes. METHODS AND RESULTS: Using a combination of molecular, imaging, and electrophysiological approaches, we discovered that Ca(V)1.2-LQT8 channels are abnormally coupled to AKAP150. A pathophysiological consequence of forming this aberrant ion channel-anchoring protein complex is enhanced Ca(V)1.2-LQT8 currents. This occurs through a mechanism whereby the anchoring protein functions like a subunit of Ca(V)1.2-LQT8 channels that stabilizes the open conformation and augments the probability of coordinated openings of these channels. Ablation of AKAP150 restores normal gating in Ca(V)1.2-LQT8 channels and protects the heart from arrhythmias. CONCLUSION: We propose that AKAP150-dependent changes in Ca(V)1.2-LQT8 channel gating may constitute a novel general mechanism for Ca(V)1.2-driven arrhythmias. |