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1 Department of Physiology, Yamagata University School of Medicine, Yamagata 990-9585; 2 Department of Anesthesia, Tokyo Metropolitan Fuchu Hospital, Fuchu, Tokyo 183-0042; and 3 Biophysical Chemistry Laboratory, Riken, Wako, Saitama 351-0198, Japan
An intracellular mechanism that senses decreases in tissue oxygen level and stimulates hypoxia-related gene expression has been reported in various cell types including the cardiac cell. The mechanism can also be activated by Co2+ in normoxia. Thus we investigated the effects of prior chronic oral CoCl2 on mechanical functions of isolated, perfused rat hearts in hypoxia-reoxygenation. In normoxic rats, 43 days of Co2+ administration increased hematocrit from 45 ± 0.3% (control, n = 18) to 51 ± 0.6% (n = 19). In hypoxia and reoxygenation, Co2+-pretreated hearts exhibited a significantly higher rate-pressure product (267 and 163%, respectively) and coronary flow (127 and 118%, respectively) and lower end-diastolic pressure (72 and 60%, respectively) compared with the control hearts. Although the oral Co2+ administration significantly raised myocardial Co2+ concentration, it did not affect mitochondrial respiration, tissue glycogen concentration, or myocardial tissue histology. The levels of vascular endothelial growth factor, aldolase-A, and glucose transporter-1 mRNA were significantly elevated in the Co2+-treated myocardium. We conclude that cardiac contractile functions would gain hypoxic tolerance when the endogenous cellular oxygen-sensing mechanism is activated.
energy metabolism; hypoxia-related genes; oxygen-sensing mechanism
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