Prolonged simulated ischemia increased the susceptibility of rat cardiomyocytes to hypercontracture, occurring at significantly lower cytosolic Ca2+ levels than normoxic cells (0.80 vs 1.27 mumol/L; P<0.01).
Does simulated ischemia increase the susceptibility of rat cardiomyocytes to hypercontracture?
Prolonged simulated ischemia increases the susceptibility of rat cardiomyocytes to hypercontracture, a mechanism that appears to be driven by protein dephosphorylation.
Tasa de eventos absoluta: 0.8% vs 1.27%
valor p: p=< .01
The hypothesis that rat cardiomyocytes become susceptible to hypercontracture after anoxia/reoxygenation was investigated. The cells were gradually overloaded with Ca2+ after different periods of simulated ischemia (substrate-free anoxia, medium at pH 6.4) followed by 20 minutes of reoxygenation. The cytosolic Ca2+ concentration (measured with fura 2) at which the cells developed maximal hypercontracture (Camax) was used as an index for their susceptibility to hypercontracture (SH). SH was increased in cardiomyocytes after prolonged periods of simulated ischemia; ie, these cells developed hypercontracture at significantly lower cytosolic Ca2+ levels than did normoxic cells (Camax, 0.80 +/- 0.05 mumol/L versus 1.27 +/- 0.05 mumol/L; P < .01). To find the possible cause of increased SH, the influence of Ca2+ overload, acidosis, and protein dephosphorylation were studied. Prevention of cytosolic Ca2+ overload in anoxic cardiomyocytes or imitation of ischemic acidosis in normoxic cells did not influence Camax. In contrast, use of 10 mumol/L cantharidin (inhibitor of protein phosphatases 1 and 2A) during anoxic superfusion prevented the reduction of Camax. Furthermore, treatment of normoxic cardiomyocytes with 20 mmol/L of the chemical phosphatase 2,3-butanedione monoxime reduced Camax. Therefore, prolonged simulated ischemia increases susceptibility of cardio-myocytes to hypercontracture. This seems to be due to protein dephosphorylation.
Ladilov et al. (Wed,) conducted a other in Simulated ischemia. Simulated ischemia vs. Normoxic cells was evaluated on Cytosolic Ca2+ concentration at which cells developed maximal hypercontracture (Camax) (p=< .01). Prolonged simulated ischemia increased the susceptibility of rat cardiomyocytes to hypercontracture, occurring at significantly lower cytosolic Ca2+ levels than normoxic cells (0.80 vs 1.27 mumol/L; P<0.01).
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