The relationship between alpha 1-adrenergic receptor occupation and the mobilization of intracellular calcium.

We have simultaneously quantitated alpha 1-adrenergic receptor occupation and agonist-elicited Ca2+ mobilization monitored as unidirectional 45Ca2+ efflux from intact BC3H-1 muscle cells in order to examine the relationship between the number of surface receptors occupied and the functional response. [3H]Prazosin has been used to measure receptor number as well as the binding kinetics with surface receptors, and the observed equilibrium and kinetic constants are in close accord with values obtained previously in cellular homogenates. Since alpha 1-agonist-elicited 45Ca2+ efflux can be monitored over intervals of 3 min or less and prazosin dissociation from its receptor has a t 1/2 of 44 min, prazosin can be employed to produce a pseudoirreversible inactivation of receptors. A comparison of the remaining receptors and residual response reveals an inverse linear relationship between receptors inactivated by prazosin and 45Ca2+ efflux. A similar result is obtained following fractional receptor inactivation with the irreversible alkylating agent phenoxybenzamine. Parameters of receptor occupation and response also correlate well for the agonist phenylephrine and for the competitive antagonist phentolamine. The unitary relationship between sites available for occupation and response indicates that the alpha 1 receptor does not function as an oligomer where fewer bound antagonist molecules are required to block the receptor than sites of agonist occupation necessary for activation. Moreover, substantial evidence has accrued in intact smooth muscle for a receptor reserve or nonlinear coupling between alpha 1 receptor occupation and contraction in smooth muscle. Our findings demonstrate that such behavior does not exist for alpha 1 receptor-elicited mobilization of Ca2+ in the BC3H-1 muscle cell.