Depletion of T-tubules and specific subcellular changes in sarcolemmal proteins in tachycardia-induced heart failure
Ravi C. Balijepalli,Andrew J. Lokuta,Nathan A. Maertz,Jennifer M. Buck,Robert A. Haworth,Héctor H. Valdivia,Timothy J. Kamp +6 more
TLDR
Failing canine ventricular myocytes exhibit prominent depletion of T-tubules and changes in the density of a variety of proteins in both surface and T- Tubular sarcolemma but with preservation of the protein composition of junctional complexes.Abstract:
Objective: The T-tubule membrane network is integrally involved in excitation–contraction coupling in ventricular myocytes. Ventricular myocytes from canine hearts with tachycardia-induced dilated cardiomyopathy exhibit a decrease in accessible T-tubules to the membrane-impermeant dye, di8-ANNEPs. The present study investigated the mechanism of loss of T-tubule staining and examined for changes in the subcellular distribution of membrane proteins essential for excitation–contraction coupling. Methods: Isolated ventricular myocytes from canine hearts with and without tachycardia-induced heart failure were studied using fluorescence confocal microscopy and membrane fractionation techniques using a variety of markers specific for sarcolemmal and sarcoplasmic reticulum proteins. Results: Probes for surface glycoproteins, Na/K ATPase, Na/Ca exchanger and Cav1.2 demonstrated a prominent but heterogeneous reduction in T-tubule labeling in both intact and permeabilised failing myocytes, indicating a true depletion of T-tubules and associated membrane proteins. Membrane fractionation studies showed reductions in L-type Ca2+ channels and β-adrenergic receptors but increased levels of Na/Ca exchanger protein in both surface sarcolemma and T-tubular sarcolemma-enriched fractions; however, the membrane fraction enriched in junctional complexes of sarcolemma and junctional sarcoplasmic reticulum demonstrated no significant changes in the density of any sarcolemmal protein or sarcoplasmic reticulum protein assayed. Conclusion: Failing canine ventricular myocytes exhibit prominent depletion of T-tubules and changes in the density of a variety of proteins in both surface and T-tubular sarcolemma but with preservation of the protein composition of junctional complexes. This subcellular remodeling contributes to abnormal excitation–contraction coupling in heart failure.read more
Citations
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Orphaned ryanodine receptors in the failing heart
TL;DR: It is concluded that the increased spatial dispersion of the TTs and orphaned RyRs lead to the loss of local control and Ca(2+) instability in heart failure.
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Localization of cardiac L-type Ca2+ channels to a caveolar macromolecular signaling complex is required for β2-adrenergic regulation
TL;DR: It is demonstrated that a subpopulation of L-type Ca(2+) channels is localized to caveolae in ventricular myocytes as part of a macromolecular signaling complex necessary for beta(2)-adrenergic receptor (AR) regulation of I(Ca,L).
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T-tubule remodeling during transition from hypertrophy to heart failure.
Sheng Wei,Ang Guo,Biyi Chen,William J. Kutschke,Yu-Ping Xie,Kathy Zimmerman,Robert M. Weiss,Mark E. Anderson,Heping Cheng,Long-Sheng Song +9 more
TL;DR: T-tubule remodeling in response to thoracic aortic banding stress begins before echocardiographically detectable LV dysfunction and progresses over the development of overt structural heart disease.
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Reduced synchrony of Ca2+ release with loss of T-tubules-a comparison to Ca2+ release in human failing cardiomyocytes.
William E. Louch,Virginie Bito,Frank R. Heinzel,Regina Macianskiene,Johan Vanhaecke,Willem Flameng,Kanigula Mubagwa,Karin R. Sipido +7 more
TL;DR: Loss of T-tubules reduces the synchrony of SR Ca2+ release, which could contribute to reduced efficiency of excitation-contraction coupling in heart failure, though dyssynchrony in human failing cells appears to be modest.
Journal ArticleDOI
Inherited Arrhythmias A National Heart, Lung, and Blood Institute and Office of Rare Diseases Workshop Consensus Report About the Diagnosis, Phenotyping, Molecular Mechanisms, and Therapeutic Approaches for Primary Cardiomyopathies of Gene Mutations Affecting Ion Channel Function
Stephan E. Lehnart,Michael J. Ackerman,D. Woodrow Benson,Ramon Brugada,Colleen E. Clancy,J. Kevin Donahue,Alfred L. George,Augustus O. Grant,Stephen C. Groft,Craig T. January,David A. Lathrop,W. Jonathan Lederer,Jonathan C. Makielski,Peter J. Mohler,Arthur J. Moss,Jeanne M. Nerbonne,Timothy M. Olson,Dennis A. Przywara,Jeffrey A. Towbin,Lan Hsiang Wang,Andrew R. Marks +20 more
TL;DR: The present classification scheme recognizes the rapid evolution of molecular biology and novel therapeutic approaches in cardiology, as well as the introduction of many recently described diseases, and is unique in that it incorporates ion channelopathies as a primary cardiomyopathy in consensus with a recent American Heart Association Scientific Statement.
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