Increased InsP₃Rs in the junctional sarcoplasmic reticulum augment Ca²⁺ transients and arrhythmias associated with cardiac hypertrophy

Cardiac hypertrophy is a growth response of the heart to increased hemodynamic demand or damage. Accompanying this heart enlargement is a remodeling of Ca²⁺ signaling. Due to its fundamental role in controlling cardiomyocyte contraction during every heartbeat, modifications in Ca²⁺ fluxes sign...

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Published in:Proceedings of the National Academy of Sciences - PNAS 2009, Vol.106 (27), p.11406-11411
Main Authors: Harzheim, Dagmar, Movassagh, Mehregan, Foo, Roger S.-Y, Ritter, Oliver, Tashfeen, Aslam, Conway, Stuart J, Bootman, Martin D, Roderick, H. Llewelyn
Format: Article
Language:English
Subjects:
animal disease models
arrhythmia
calcium
calcium signaling
cardiac output
cardiomyocytes
cardiomyopathy
cytosol
endothelins
heart failure
hypertension
hypertrophy
inositols
mice
patients
rats
ryanodine receptors
sarcoplasmic reticulum
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container_end_page 11411
container_issue 27
container_start_page 11406
container_title Proceedings of the National Academy of Sciences - PNAS
container_volume 106
creator Harzheim, Dagmar
Movassagh, Mehregan
Foo, Roger S.-Y
Ritter, Oliver
Tashfeen, Aslam
Conway, Stuart J
Bootman, Martin D
Roderick, H. Llewelyn
description Cardiac hypertrophy is a growth response of the heart to increased hemodynamic demand or damage. Accompanying this heart enlargement is a remodeling of Ca²⁺ signaling. Due to its fundamental role in controlling cardiomyocyte contraction during every heartbeat, modifications in Ca²⁺ fluxes significantly impact on cardiac output and facilitate the development of arrhythmias. Using cardiomyocytes from spontaneously hypertensive rats (SHRs), we demonstrate that an increase in Ca²⁺ release through inositol 1,4,5-trisphosphate receptors (InsP₃Rs) contributes to the larger excitation contraction coupling (ECC)-mediated Ca²⁺ transients characteristic of hypertrophic myocytes and underlies the more potent enhancement of ECC-mediated Ca²⁺ transients and contraction elicited by InsP₃ or endothelin-1 (ET-1). Responsible for this is an increase in InsP₃R expression in the junctional sarcoplasmic reticulum. Due to their close proximity to ryanodine receptors (RyRs) in this region, enhanced Ca²⁺ release through InsP₃Rs served to sensitize RyRs, thereby increasing diastolic Ca²⁺ levels, the incidence of extra-systolic Ca²⁺ transients, and the induction of ECC-mediated Ca²⁺ elevations. Unlike the increase in InsP₃R expression and Ca²⁺ transient amplitude in the cytosol, InsP₃R expression and ECC-mediated Ca²⁺ transients in the nucleus were not altered during hypertrophy. Elevated InsP₃R2 expression was also detected in hearts from human patients with heart failure after ischemic dilated cardiomyopathy, as well as in aortic-banded hypertrophic mouse hearts. Our data establish that increased InsP₃R expression is a general mechanism that underlies remodeling of Ca²⁺ signaling during heart disease, and in particular, in triggering ventricular arrhythmia during hypertrophy.
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Using cardiomyocytes from spontaneously hypertensive rats (SHRs), we demonstrate that an increase in Ca²⁺ release through inositol 1,4,5-trisphosphate receptors (InsP₃Rs) contributes to the larger excitation contraction coupling (ECC)-mediated Ca²⁺ transients characteristic of hypertrophic myocytes and underlies the more potent enhancement of ECC-mediated Ca²⁺ transients and contraction elicited by InsP₃ or endothelin-1 (ET-1). Responsible for this is an increase in InsP₃R expression in the junctional sarcoplasmic reticulum. Due to their close proximity to ryanodine receptors (RyRs) in this region, enhanced Ca²⁺ release through InsP₃Rs served to sensitize RyRs, thereby increasing diastolic Ca²⁺ levels, the incidence of extra-systolic Ca²⁺ transients, and the induction of ECC-mediated Ca²⁺ elevations. Unlike the increase in InsP₃R expression and Ca²⁺ transient amplitude in the cytosol, InsP₃R expression and ECC-mediated Ca²⁺ transients in the nucleus were not altered during hypertrophy. Elevated InsP₃R2 expression was also detected in hearts from human patients with heart failure after ischemic dilated cardiomyopathy, as well as in aortic-banded hypertrophic mouse hearts. 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Using cardiomyocytes from spontaneously hypertensive rats (SHRs), we demonstrate that an increase in Ca²⁺ release through inositol 1,4,5-trisphosphate receptors (InsP₃Rs) contributes to the larger excitation contraction coupling (ECC)-mediated Ca²⁺ transients characteristic of hypertrophic myocytes and underlies the more potent enhancement of ECC-mediated Ca²⁺ transients and contraction elicited by InsP₃ or endothelin-1 (ET-1). Responsible for this is an increase in InsP₃R expression in the junctional sarcoplasmic reticulum. Due to their close proximity to ryanodine receptors (RyRs) in this region, enhanced Ca²⁺ release through InsP₃Rs served to sensitize RyRs, thereby increasing diastolic Ca²⁺ levels, the incidence of extra-systolic Ca²⁺ transients, and the induction of ECC-mediated Ca²⁺ elevations. 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subjects animal disease models
arrhythmia
calcium
calcium signaling
cardiac output
cardiomyocytes
cardiomyopathy
cytosol
endothelins
heart failure
hypertension
hypertrophy
inositols
mice
patients
rats
ryanodine receptors
sarcoplasmic reticulum
title Increased InsP₃Rs in the junctional sarcoplasmic reticulum augment Ca²⁺ transients and arrhythmias associated with cardiac hypertrophy
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