Rapid reciprocal changes in adrenergic receptors in intact isolated hepatocytes during primary cell culture

KR Schwarz, SM Lanier, EA Carter, CJ Homcy and RM Graham

In hepatocytes freshly isolated from adult female rat livers, catecholamine-stimulated glycogenolysis is mediated predominantly by alpha 1-adrenergic receptors, and to only a minimal extent by beta 2 receptors. Primary cell culture of these hepatocytes results in a switch in the adrenergic control of glycogenolysis from an alpha 1 to a predominant beta 2 type of response. To investigate whether this switch is due to an alteration in the plasma membrane receptor composition, we characterized alpha 1 and beta 2-adrenergic receptors in both freshly isolated and cultured hepatocytes, using radioligand-binding techniques. Binding of the selective alpha 1-adrenergic antagonist [3H]prazosin and the beta-adrenergic antagonist [125I]pindolol to intact freshly isolated hepatocytes was of high affinity, saturable, and of appropriate specificity for an alpha 1- and beta 2-adrenergic receptor, respectively. Equilibrium binding studies evaluated by a computer-assisted curve-fitting procedure indicated interaction with a single class of high affinity sites for radiolabeled prazosin (KD = 126 +/- 10 pM; Bmax = 93,000 +/- 5,500 sites/cell) and pindolol (KD = 66 +/- 6 pM; Bmax = 2,000 +/- 700 sites/cell). In intact hepatocytes and in membranes prepared from these hepatocytes, competitive inhibition curves revealed the coexistence of two different sites with high and low affinities for agonists at both alpha 1- and beta 2-adrenergic receptors. When isolated hepatocytes were kept in monolayer cell culture for up to 72 hr, the switch in adrenergic control of glycogenolysis (phosphorylase a activation) from an alpha to a beta pathway was confirmed and was associated with a progressive decrease in the number of alpha 1 receptors and an increase in beta 2-adrenergic receptor density, without marked change in the affinity of agonists or antagonists. To investigate the mechanism(s) of this reciprocal change, a number of perturbations were examined including alterations in the composition of the culture medium and the influence of various hormones and inhibitors of cellular function. De novo protein synthesis is implicated in both receptor alterations as the inhibitors cycloheximide and actinomycin D prevented the increase in beta- and attenuated the decrease in alpha-adrenergic sites. The other perturbations were without effect. Thus, these studies provide evidence for a coupling of the functional alteration in glycogenolysis to changes at the receptor level per se. The mechanism underlying the reciprocal changes in hepatocyte adrenergic receptors during culture remains undefined.(ABSTRACT TRUNCATED AT 400 WORDS)

Volume 27, Issue 2, pp. 200-209, 02/01/1985
Copyright © 1985 by American Society for Pharmacology and Experimental Therapeutics

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