Metabolic responses of perfused rat livers to alpha- and beta-adrenergic agonists, glucagon and cyclic AMP

Abstract

1. The mechanism of action of glucagon and epinephrine was studied in perfused rat livers. Hormone-induced transitions from one metabolic steady state to another were followed in a non-recirculating perfusion system. Glucose and lactate production rates, oxygen uptake and K+ redistribution were measured. 2. Glucagon (3 nM), cyclic AMP (0.2 mM) and epinephrine (0.5 muM) had similar effects on K+ concentrations in the perfusate. Glycogenolysis responded more rapidly and O2 uptake was enhanced to a larger extent with epinephrine than with the other agents. alpha- and beta-receptor responses were differentiated by the use of phenylephrine (0.5 muM), isoproterenol (0.5 muM) and adrenergic blocking agents (phentolamine and beta-blocker Ro 3-4787 at 0.1 mM). 3. alpha-receptors mediated an activation of glucose production that was very rapid and was paralleled by a transient decrease of K+ concentrations in the effluent from the liver, lactate production rose gradually. Respiration was also enhanced, but fell again as lactate production increased. 4. beta-receptor stimulation was followed by an increase of glucose production that was less drastic and was paralleled by a K+ release, lactate production and respiration were only slightly enhanced. beta stimulation and glucagon both resulted in an inhibition of the alpha-adrenergic effect on lactate release and simultaneously increased O2 uptake. 5. We concluded that in perfused rat livers alpha- as well as beta-adrenergic receptor stimulation resulted in an activation of glycogenolysis, possibly by two different mechanisms.