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  • Title: Creatine kinase inhibitor iodoacetamide antagonizes calcium-stimulated inotropy in cardiomyocytes.
    Author: Ren J, Davidoff AJ, Ingwall JS.
    Journal: Clin Exp Pharmacol Physiol; 2009 Feb; 36(2):141-5. PubMed ID: 18761665.
    Abstract:
    1. Inhibition of creatine kinase is known to suppress cardiac contractile reserve in intact hearts, although the underlying mechanism has not been elucidated. 2. The present study was designed to examine whether cardiac depression induced by creatine kinase inhibition was due to action at the level of the essential contractile element, namely cardiomyocytes. Adult rat cardiomyocytes were perfused with the creatine kinase inhibitor iodoacetamide (90 micromol/L) for 90 min. Mechanical and intracellular Ca(2+) properties were evaluated using edge-detection and fluorescence microscopy, respectively. Myocytes were superfused with normal (1.3 mmol/L) or high (3.3 mmol/L) extracellular Ca(2+) contractile buffer. Mechanical function was examined, including peak shortening (PS), maximal velocity of shortening/relengthening (+/-dL/dt), time to 90% PS (TPS(90)), time to 90% relengthening (TR(90)) and integration of shortening/relengthening (normalized to PS). Intracellular Ca(2+) transients were evaluated using the following indices: resting and rise of fura-2 fluorescence intensity (Delta FFI) and intracellular Ca(2+) decay time constant. 3. The results indicate that elevated extracellular Ca(2+) stimulated cardiomyocyte positive inotrope, manifested as increased PS, +/-dL/dt, area of shortening, resting FFI and Delta FFI associated with a shortened TR(90) and intracellular Ca(2+) decay time constant. High extracellular Ca(2+) did not affect TPS(90) and area of relengthening. Iodoacetamide ablated high Ca(2+)-induced increases in PS, +/-dL/dt, area of shortening, resting FFI, Delta FFI and shortened TR(90) and intracellular Ca(2+) decay time constant. Iodoacetamide itself significantly enhanced the area of relengthening and TR(90) without affecting other indices. 4. Collectively, these data demonstrate that inhibition of creatine kinase blunts high extracellular Ca(2+)-induced increases in cardiomyocyte contractile response (i.e. cardiac contractile reserve).
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