Muscarinic modulation of the sodium-calcium exchanger in heart failure.
Publication/Presentation Date
3-13-2007
Abstract
BACKGROUND: The Na-Ca exchanger (NCX) is a critical calcium efflux pathway in excitable cells, but little is known regarding its autonomic regulation.
METHODS AND RESULTS: We investigated beta-adrenergic receptor and muscarinic receptor regulation of the cardiac NCX in control and heart failure (HF) conditions in atrially paced pigs. NCX current in myocytes from control swine hearts was significantly increased by isoproterenol, and this response was reversed by concurrent muscarinic receptor stimulation with the addition of carbachol, demonstrating "accentuated antagonism." Okadaic acid eliminated the inhibitory effect of carbachol on isoproterenol-stimulated NCX current, indicating that muscarinic receptor regulation operates via protein phosphatase-induced dephosphorylation. However, in myocytes from atrially paced tachycardia-induced HF pigs, the NCX current was significantly larger at baseline but less responsive to isoproterenol compared with controls, whereas carbachol failed to inhibit isoproterenol-stimulated NCX current, and 8-Br-cGMP did not restore muscarinic responsiveness. Protein phosphatase type 1 dialysis significantly reduced NCX current in failing but not control cells, consistent with NCX hyperphosphorylation in HF. Protein phosphatase type 1 levels associated with NCX were significantly depressed in HF pigs compared with control, and total phosphatase activity associated with NCX was significantly decreased.
CONCLUSIONS: We conclude that the NCX is autonomically modulated, but HF reduces the level and activity of associated phosphatases; defective dephosphorylation then "locks" the exchanger in a highly active state.
Volume
115
Issue
10
First Page
1225
Last Page
1233
ISSN
1524-4539
Published In/Presented At
Wei, S. K., Ruknudin, A. M., Shou, M., McCurley, J. M., Hanlon, S. U., Elgin, E., Schulze, D. H., & Haigney, M. C. (2007). Muscarinic modulation of the sodium-calcium exchanger in heart failure. Circulation, 115(10), 1225–1233. https://doi.org/10.1161/CIRCULATIONAHA.106.650416
Disciplines
Medicine and Health Sciences
PubMedID
17339552
Department(s)
Cardiology Division, Department of Medicine
Document Type
Article