Differential regulation of the alpha 2-adrenergic receptor by Na+ and guanine nucleotides.

Many hormones interact with receptors which stimulate the enzyme adenylate cyclase. Less well characterized ar those receptors which mediate an inhibition of adenylate cyclase activity. However, guanine nucleotides are clearly important in the regulation of both stimulatory and inhibitory receptors. Monovalent cations, notably Na+, regulate many inhibitory receptor systems but apparently not stimulatory receptors. We investigate here the effects of Na+ and guanine nucleotides on the adenylate cyclase-coupled inhibitory alpha 2-adrenergic receptor of the rabbit platelet. Computer modelling of adrenaline competition curves with 3H-dihydroergocryptine (3H-DHE) indicates that adrenaline induces two distinct affinity states of the alpha 2 receptor--one of higher (alpha 2H) and the other of lower (alpha 2L) affinity. Guanyl-5'-yl-imidodiphosphate (Gpp(NH)p) seems to reduce adrenaline affinity to converting the high-affinity state into the low-affinity form of the receptor. In contrast, Na+ reduces adrenaline affinity at both the high- and low-affinity states of the alpha 2 receptor while preserving receptor heterogeneity. Thus, guanine nucleotides and Na+ differ in the manner by which each reduces agonist affinity for the alpha 2-adrenergic receptor.