Manzl 2002 J Exp Zool

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Manzl C, Schubert M, Schwarzbaum PJ, Krumschnabel G (2002) Effects of chemical anoxia on adrenergic responses of goldfish hepatocytes and the contribution of alpha- and beta-adrenoceptors. J Exp Zool 292: 468-476..

» PMID: 11857481

Manzl C, Schubert M, Schwarzbaum PJ, Krumschnabel G (2002) J Exp Zool

Abstract: Adrenergic responses during normoxia and chemical anoxia were investigated in anoxia-tolerant hepatocytes from the goldfish, Carassius auratus. Epinephrine-stimulated glucose release was unaltered after 1 hr of chemical anoxia, the concentration of epinephrine required for half maximal stimulation of glucose release (K0.5(GLU)) ranging from 0.62 x 10(-8) to 2.05 x 10(-8) M. Similarly, the maximum rate of glucose release caused by hormonal stimulation was not affected by chemical anoxia. In anoxic goldfish hepatocytes [Ca2+](i) remained constant in nonstimulated cells but could be elevated by addition of epinephrine. The magnitude of this [Ca(2+)](i)-increase was dependent on the concentration of the catecholamine and this dependency was similar under normoxia (K0.5(Ca2+) = 1.17 x 10(-8) M) and chemical anoxia (K0.5(Ca2+) = 1.15 x 10(-8) M), as was the percentage of cells responding (77%) and displaying oscillatory [Ca2+]i response patterns (60%) after epinephrine addition, although the frequency of [Ca2+]i oscillations was significantly lower in anoxic cells. To analyze a possible shift in the importance of alpha- and beta-adrenoceptors during chemical anoxia, the effect of phentolamine and propranolol, alpha- and beta-adrenergic antagonists respectively, on epinephrine-stimulated glucose release was studied. Application of the alpha-antagonist caused a dose-dependent reduction of glucose-release which was similar under both conditions, whereas the sensitivity to the beta-antagonist was lowered after chemical anoxia. Taken together these results provide evidence that during chemical anoxia goldfish hepatocytes remain responsive to adrenergic stimulation and that there is a partial shift regarding the contribution of alpha- and beta-adrenergic pathways to the induction of cellular glucose release stimulated by epinephrine.


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