Ken-ichiro Kawana scite author profile

1 The eects of long-term treatment with trandolapril, an angiotensin I-converting enzyme inhibitor, on exercise capacity of rats with chronic heart failure (CHF) following coronary artery ligation were examined. CHF was developed by 8 weeks after the coronary artery ligation. 2 The running time of rats with CHF in the treadmill test was shortened to approximately 65% of that of sham-operated rats (16.3+1.2 vs 25.1+1.6 min, n=7; P50.05). ATP, creatine phosphate (CP), and lactate contents of the gracilis muscle of rats with CHF were similar to those of shamoperated rats before running. After running, ATP and CP were decreased and lactate was increased in both rats with CHF and sham-operated rats. There were no signi®cant dierences in the levels of energy metabolites between rats with CHF and sham-operated rats. The rates of decrease in ATP and CP and rate of increase in lactate in the gracilis muscle of rats with CHF during exercise were greater than those of sham operated rats (2.5, 2.0 and 1.5 fold high, respectively), suggesting wastage of energy during exercise in the animals with CHF. , n=7; P50.05) and composition ratio of MHC isoforms in the gracilis muscle. 5 The results suggest that long-term trandolapril treatment of rats with CHF may restore their ability to utilize energy without wastage and thus improve exercise capacity.

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Involvement of Adenosine Receptor, Potassium Channel and Protein Kinase C in Hypoxic Preconditioning of Isolated Cardiomyocytes of Adult Rat

Nojiri

Tanonaka

Yabe

et al. 1999

Japanese Journal of Pharmacology

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A possible mechanism for hypoxic preconditioning of adult rat cardiomyocytes was pharmacologically investigated. Isolated cardiomyocytes in all experimental groups were incubated for 120 min under hypoxic conditions followed by 15-min reoxygenation (sustained H/R). Sustained H/R decreased rod-shaped cells. Exposure of the cardiomyocytes to 20-min of hypoxia/30-min reoxygenation (hypoxic preconditioning) attenuated the sustained H/R-induced decrease in rod-shaped cells. The effects of hypoxic preconditioning were abolished by treatment with the protein kinase C (PKC) inhibitor polymyxin B, but abolished by neither the adenosine A1/A2-antagonist sulfophenyl theophylline (SPT) nor the ATP-sensitive potassium channel (K(ATP) channel) blocker glibenclamide. In another series of experiments, cardiomyocytes were incubated without hypoxic preconditioning in the presence of either the PKC activator PMA, adenosine or K(ATP)-channel opener nicorandil and then subjected to sustained H/R. Treatment of the cells with PMA, adenosine or nicorandil mimicked the effects of hypoxic preconditioning. The effects of treatment with adenosine and nicorandil were abolished by polymyxin B treatment. Combined treatment with both SPT and glibenclamide abolished the effects of hypoxic preconditioning, whereas it failed to abolish PMA-induced cytoprotection. These results suggest that the activation of PKC in hypoxic preconditioned cardiomyocytes coupled independently with stimulation of adenosine receptor or opening of K(ATP) channel, either of which is fully enough to exert the cytoprotective effects.

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Effects of long-term treatment with trandolapril on exercise capacity in rats with chronic heart failure

Yamaguchi

Tanonaka

Kamano

et al. 1998

Japanese Journal of Pharmacology

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Tanonaka

Toga

Takahashi

et al. 2003

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Effects of heat shock protein 70 (Hsp70) translocated to nuclear fraction on hypoxia/reoxygenation injury was examined by using adult cardiomyocytes isolated from rats. Cardiomyocytes were exposed to heat shock at 42 degrees C for 15 min (HS group), and then incubated at 37 degrees C for 6-24 h. Hsp70 production increased and the protein translocated from cytosol to nucleus. The maximum level of Hsp70 in the nuclear fraction was observed 12 h after HS. When cardiomyocytes without exposure to HS (nHS group) were subjected to 120 min hypoxia/15 min reoxygenation (Hypo/Reoxy), post-hypoxic cell viability was approximately 25% of the pre-hypoxic value. A rise in poly(ADP-ribose) synthetase (PARS) activity in the nuclear fraction was observed in nHS group, associated with an increase in polyADP-ribosylated protein. In contrast, post-hypoxic cell viability of HS group was approximately 60% of the pre-hypoxic value. Hypo/reoxy-induced rise in PARS activity and increase in polyADP-ribosylated protein were attenuated in HS group. To confirm the relationship between an increase in cell viability after Hypo/Reoxy and attenuation of PARS activation, cardiomyocytes without exposure to HS were subjected to Hypo/Reoxy in the presence of 1 mM 3-aminobenzamide, an inhibitor of PARS. Treatment of cells with 3-aminobenzamide attenuated Hypo/ Reoxy-induced decrease in cell viability. These results suggest that Hsp70 translocated into nucleus after HS may attenuate PARS activation during Hypo/Reoxy, leading to the cytoprotection of cardiomyocytes against Hypo/Reoxy injury.

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