High intracellular Na+ preserves myocardial function at low heart rates in isolated myocardium from failing hearts |
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| Authors: | Schillinger Wolfgang Teucher Nils Christians Claus Kohlhaas Michael Sossalla Samuel Van Nguyen Phuc Schmidt Albrecht G Schunck Ortwin Nebendahl Klaus Maier Lars S Zeitz Oliver Hasenfuss Gerd |
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| Institution: | Georg-August-Universit?t G?ttingen, Herzzentrum, Kardiologie und Pneumologie, Robert-Koch-Str. 40, 37099 G?ttingen, Germany. schiwolf@med.uni-goettingen.de |
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| Abstract: | We investigated the hypothesis that increased intracellular Na+]i in heart failure contributes to preservation of SR Ca2+ load which may become particularly evident at slow heart rates. Na+]i in SBFI-loaded myocytes from rabbits with pacing-induced heart failure (PHF) was significantly higher at each frequency as compared to Sham-operated animals. Furthermore, PHF rabbits demonstrated reduced SR Ca2+-ATPase protein levels (-37%, p < 0.04) but unchanged Na+/Ca2+ exchanger protein levels. At 0.25 Hz, isometric force was similar in cardiac trabeculae from PHF rabbits as compared to control (PHF, 3.6+/-1.3; Sham, 4.4+/-0.6 mN/mm2). Rapid cooling contractures (RCCs) were unchanged indicating preserved SR Ca2+ load at this frequency. In Sham, isometric twitch force increased with rising frequencies to 29.0+/-2.8 mN/mm2 at 3.0 Hz (p < 0.05) as compared to 0.25 Hz. RCCs showed a parallel increase by 186+/-47% (p < 0.01). In PHF, frequency-dependent increase in force (15.8+/-4.7 mN/mm2 at 3.0 Hz) and RCCs (increase by 70+/-40%) were significantly blunted. Thus, in PHF in rabbits SR Ca2+ load is preserved at low frequencies despite decreased SR Ca2+-ATPase expression. This may result from Na+]i-dependent changes in Na+/Ca2+ exchanger activity. |
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| Keywords: | dilated cardiomyopathy heart failure force–frequency relationship sodium animal model |
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