Time-dependent conversion of alpha 1- to beta-adrenoceptor-mediated glycogenolysis in isolated rat liver cells: role of membrane phospholipase A2.

Incubation of isolated rat liver cells in a serum-free buffer leads to the reduction of the glycogenolytic effect of phenylephrine and the simultaneous emergence of a glycogenolytic response to isoproterenol within 4 hr. This conversion of the adrenergic activation of phosphorylase from an alpha 1- to a beta-adrenoceptor-mediated response is associated with no change in the glycogenolytic response to the calcium-linked activator vasopressin, and a reduction of the glycogenolytic response to the cAMP-linked activator glucagon. In vitro incubation of hepatocytes does not influence the density of affinity of [3H]prazosin-labeled alpha 1-receptors and [3H]CGP-12177-labeled beta-receptors. In cells preincubated for 4 hr, a further 30-min incubation with 50 nM lipomodulin, an endogenous inhibitor of membrane phospholipase A2 (EC 3.1.1.4), reverses the adrenergic activation of phosphorylase from a beta- to an alpha 1-receptor-mediated event, whereas in freshly isolated cells lipomodulin does not affect the predominant alpha-receptor response. Conversely, exposure of freshly isolated cells to a monoclonal antibody to lipomodulin in the presence of 10 microM phenylephrine, or to melittin, an activator of phospholipase A2, at 2 micrograms/ml, results in the suppression of the effect of phenylephrine and the emergence of a response to isoproterenol within 30 min. It is proposed that coupling of hepatic alpha 1- and beta-adrenoceptors to postreceptor pathways is regulated in an inverse reciprocal manner by changes in membrane phospholipase A2 activity.