Microcalorimetric Study on Myocardial Metabolism in a Hibernator and Two Nonhibernators at 20°C and 37°C

Metabolic activity in cardiac tissue slices from the guinea pig (GP), the rat (RT), the nonhibernating summer and winter hedgehog (SH and WH), respectively, was determined at 20° and at 37°C from their rates of heat production, P, (units, W/g tissue) by direct and indirect calorimetry. Energy-linked...

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Published inCryobiology Vol. 31; no. 2; pp. 133 - 143
Main Authors Ikomi-Kumm, J., Monti, M., Hanson, A., Johansson, B.W.
Format Journal Article
LanguageEnglish
Published San Diego, CA Elsevier Inc 1994
Elsevier
Subjects
Biological and medical sciences
Fundamental and applied biological sciences. Psychology
Thermoregulation. Hibernation. Estivation. Ecophysiology and environmental effects
Vertebrates: anatomy and physiology, studies on body, several organs or systems
Vertebrata
Temperature
Mammalia
Guinea pig
Rat
Hibernation
Rodentia
Myocardium
Circulatory system
Microcalorimetry
Metabolism
Adaptation
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Summary:Metabolic activity in cardiac tissue slices from the guinea pig (GP), the rat (RT), the nonhibernating summer and winter hedgehog (SH and WH), respectively, was determined at 20° and at 37°C from their rates of heat production, P, (units, W/g tissue) by direct and indirect calorimetry. Energy-linked transport of Na + and K + in the tissues was determined from changes in metabolic rate induced by specific inhibition of the Na/K pump, the functional expression of Na/K-ATPase, the pacemaker enzyme in energy production assigned the role of transporting Na + and K + out of and into the cell. The results indicate a higher rate of energy production and utilization in the cardiac tissue of the hedgehog than in that of the nonhibernators, the rat and the guinea pig, at both temperatures. At 37°C the rate at which the cardiac tissue from the hedgehog consumed oxygen was as much as six times that registered for the guinea pig. The temperature coefficients of P and of the Na/K pump in the tissues from the two groups of hedgehogs were significantly higher than in the tissues from the rat and the guinea-pig ( P < 0.001). The determined metabolic indices, the basal rate of heat production P, the rate of oxygen consumption, P(O 2) in thermal units (W/g tissue), and the Na/K-pump capacity (PC) indicate species-specific differences between the animals. Both PC and its variation with temperature, ΔPC/Δ T°C, were in the order WH > SH > RT > GP. These results indicate that the hedgehog's cardiac tissue, in comparison with that of the nonhibernators, has a greater capacity to generate energy in general and for active transport of Na + and K + at 37°C after exposure to a lower temperature. A role is suggested for the Na/K-ATPase and some other unique rate-limiting enzymes in the metabolic pathway for the observed differences in temperature tolerance and cardiac performance between hibernators and nonhibernators.
ISSN:0011-2240
1090-2392
DOI:10.1006/cryo.1994.1017