Objective: Istaroxime (PST2744) is a novel inotropic agent which enhances SERCA2 activity. We investigated istaroxime effect on Ca(2+) handling abnormalities in myocardial hypertrophy/failure (HF). Methods: guinea-pig myocytes were studied 12 weeks after aortic banding (AoB) and compared to those of sham-operated animals (sham). The gain of calcium-induced Ca(2+) release (CICR), sarcoplasmic reticulum (SR) Ca(2+) content, Na(+)/Ca(2+) exchanger (NCX) function and the rate of SR reloading after caffeine-induced depletion (SR Ca(2+) uptake, measured during NCX blockade) were evaluated by measurement of cytosolic Ca(2+) and membrane currents. Results: HF characterization: AoB caused hypertrophy and failure in 100% and 25% of animals respectively. While CICR-gain during constant pacing was preserved, SR Ca(2+) content and SR Ca(2+) uptake were strongly depressed. Resting Ca(2+) and the slope of the INCX/Ca(2+) relationship were unchanged by AoB. Istaroxime effects: CICR gain, SR Ca(2+) content and SR Ca(2+) uptake rate were increased by istaroxime in sham myocytes and, to a significantly larger extent, in AoB myocytes; this led to almost complete recovery of SR Ca(2+) uptake in AoB myocytes. Istaroxime increased resting Ca(2+) and the slope of the INCX/Ca(2+) relationship similarly in sham and AoB myocytes. Istraoxime failed to increase SERCA activity in skeletal muscle microsomes devoid of phospholamban. Conclusions: Clear-cut abnormalities in Ca(2+) handling occurred in this model of hypertrophy with mild decompensation. Istaroxime enhanced SR function more in HF myocytes than in normal ones; almost complete drug-induced recovery suggests a purely functional nature of SR dysfunction in this HF model.
Rocchetti, M., Alemanni, M., Mostacciuolo, G., Barassi, P., Altomare, C., Chisci, R., et al. (2008). Modulation of sarcoplasmic reticulum function by istaroxime (PST2744) in a pressure-overload heart failure model. THE JOURNAL OF PHARMACOLOGY AND EXPERIMENTAL THERAPEUTICS, 326(3), 957-965 [10.1124/jpet.108.138701].
Modulation of sarcoplasmic reticulum function by istaroxime (PST2744) in a pressure-overload heart failure model
ROCCHETTI, MARCELLA;ALEMANNI, MATTEO;MOSTACCIUOLO, GASPARE;CHISCI, RICCARDO;ZAZA, ANTONIO
2008
Abstract
Objective: Istaroxime (PST2744) is a novel inotropic agent which enhances SERCA2 activity. We investigated istaroxime effect on Ca(2+) handling abnormalities in myocardial hypertrophy/failure (HF). Methods: guinea-pig myocytes were studied 12 weeks after aortic banding (AoB) and compared to those of sham-operated animals (sham). The gain of calcium-induced Ca(2+) release (CICR), sarcoplasmic reticulum (SR) Ca(2+) content, Na(+)/Ca(2+) exchanger (NCX) function and the rate of SR reloading after caffeine-induced depletion (SR Ca(2+) uptake, measured during NCX blockade) were evaluated by measurement of cytosolic Ca(2+) and membrane currents. Results: HF characterization: AoB caused hypertrophy and failure in 100% and 25% of animals respectively. While CICR-gain during constant pacing was preserved, SR Ca(2+) content and SR Ca(2+) uptake were strongly depressed. Resting Ca(2+) and the slope of the INCX/Ca(2+) relationship were unchanged by AoB. Istaroxime effects: CICR gain, SR Ca(2+) content and SR Ca(2+) uptake rate were increased by istaroxime in sham myocytes and, to a significantly larger extent, in AoB myocytes; this led to almost complete recovery of SR Ca(2+) uptake in AoB myocytes. Istaroxime increased resting Ca(2+) and the slope of the INCX/Ca(2+) relationship similarly in sham and AoB myocytes. Istraoxime failed to increase SERCA activity in skeletal muscle microsomes devoid of phospholamban. Conclusions: Clear-cut abnormalities in Ca(2+) handling occurred in this model of hypertrophy with mild decompensation. Istaroxime enhanced SR function more in HF myocytes than in normal ones; almost complete drug-induced recovery suggests a purely functional nature of SR dysfunction in this HF model.
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