Journal Article

P680Na+/Ca2+ exchanger (NCX) function and diastolic Ca2+ leak in a model of heart failure with preserved ejection fraction

U Primessnig, A Hoell, P Wakula, BM Pieske and FR Heinzel

in Cardiovascular Research

Published on behalf of The European Society of Cardiology

Volume 103, issue suppl_1, pages S124-S124
Published in print July 2014 | ISSN: 0008-6363
Published online July 2014 | e-ISSN: 1755-3245 | DOI: https://dx.doi.org/10.1093/cvr/cvu098.104
P680Na+/Ca2+ exchanger (NCX) function and diastolic Ca2+ leak in a model of heart failure with preserved ejection fraction

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Background: Heart failure with preserved ejection fraction (HFPEF) is increasingly common but the established heart failure (HF) drugs are not effective. The underlying cellular mechanisms are incompletely understood. Therefore we investigated cardiomyocyte function and intracellular Ca2+ homeostasis in a model of HFPEF.

Methods: Young male Wistar rats were subjected to subtotal nephrectomy (NXT) or sham operation (SOP). Serial blood/urine samples, echocardiography and pressure-volume loops at 8 and 24 weeks were performed. After sacrifice, left ventricular (LV) hypertrophy and NCX function (Caffeine induced Ca2+ transient, TAU) and protein expression (Western blot) were determined. Cardiomyocyte function (Ca2+ transients, sarcoplasmic reticulum (SR) diastolic Ca2+ leak (Ca2+ sparks) and SR Ca2+ content; Fluo4-AM) were quantified in isolated LV cardiomyocytes without and with the NCX inhibitor SEA0400 (300nM).

Results: NXT rats showed stable compensated renal impairment and significantly hypertrophied LV at 8 weeks with a further increase after 24 weeks. LV systolic function (EF, dP/dt) was preserved. End diastolic pressure (EDP) volume relationship was markedly shifted left- and upwards and lung weight were significantly increased, indicating HFPEF with pulmonary congestion. LV cardiomyocytes from NXT showed no significant differences in amplitudes of Ca2+ transients. However, time for early (50%) relaxation of the Ca2+ transients at 8 weeks were significantly prolonged with a further increase after 24 weeks (RT50 17.2±2.9 and 30.8±2.7 vs. 27.6±1.8 and 41.8±2.6 ms; n≥20; p< 0.05). TAU was significantly prolonged at 8 and 24 weeks indicating reduced NCX forward mode activity, while NCX protein expression was upregulated. At 8 weeks, Ca2+ spark frequency tended to be increased (p=0.07) while SR Ca2+ content was unchanged. SEA0400 accelerated Ca2+ transient decay but did not affect Ca2+ spark frequency. At 24 weeks, Ca2+ spark frequency was increased (4.3±0.7 vs. 11.5±1.8 sparks/s/μm3; n≥20; p<0.05) and SR Ca2+ content was decreased (p<0.05). SEA0400 significantly accelerated Ca2+ transient decay and reduced Ca2+ spark frequency.

Conclusion: In this model of HFPEF, relaxation of cardiomyocytes was slower and cytosolic Ca2+ decay was prolonged. Diastolic Ca2+ leak increased significantly during diseases progression. Whereas NCX forward mode activity was already reduced early despite increased NCX protein expression. Acute treatment with NCX inhibitor SEA0400 normalized cytosolic Ca2+ transients in young NXT rats suggesting a role of reverse mode NCX activity and decreased Ca2+ leak at later time points.

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Subjects: Cardiovascular Medicine

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