Beta-adrenergic activity of (+/-)-hydroxybenzylisoproterenol in isolated rat fat cells and hepatocytes.

The pharmacology of (+/-)-hydroxybenzylisoproterenol with respect to stimulation of cyclic AMP accumulation by isolated rat fat cells and liver cells was examined. (+/-)-Hydroxybenzylisoproterenol was found to be a full agonist and twice as potent as (-)-isoproterenol in liver cells, and equipotent to (-)-isoproterenol in fat cells with regard to stimulating cyclic AMP accumulation. A study of the ability of this catecholamine to stimulate adenylate cyclase activity of broken-cell preparations revealed that (+/-)-hydroxybenzylisoproterenol was equipotent to (-)-isoproterenol in liver cell homogenates, while 3- to 4-fold more potent than (-)-isoproterenol in fat cell ghost membranes. (+/-)-Hydroxybenzylisoproterenol was also found to be as potent as (-)-isoproterenol in stimulating cyclase activity of S49 mouse lymphoma cell membranes. Competition studies of specific [125I]iodohydroxybenzylpindolol binding to liver cell membranes revealed a Kd of 10 nM for (+/-)-hydroxybenzylisoproterenol and 25 nM for (-)-isoproterenol binding to the liver beta-adrenergic receptor. Competition studies of specific (-)-[3H]dihydroalprenolol binding to fat cell membranes indicated a similar affinity of these sites for both (+/-)-hydroxybenzylisoproterenol and (-)-isoproterenol. The guanyl nucleotide Gpp(NH)p induced a shift in the curve for competition of (-)-[3H]dihydroalprenolol binding by (-)-isoproterenol to the right, but failed to do so when (+/-)-hydroxybenzylisoproterenol was the competing agonist. Properties of (+/-)-[3H]hydroxybenzylisoproterenol binding to fat cell or liver cell membranes were inconsistent with those expected of adenylate cyclase coupled beta-adrenergic receptors.