The hamster adipocyte adenylate cyclase system II. Regulation of enzyme stimulation and inhibition by monovalent cations

In hamster adipocyte ghosts, ACTH and β-adrenergic agonists stimulate adenylate cyclase by a GTP-dependent process; in contrast, inhibition of the enzyme by hormonal factors requires both GTP and sodium ions. The interaction of various monovalent cations and guanine nucleotides was studied on basal, stimulated and inhibited adenylate cyclase activities. In the presence of GTP (0.03–10 μM), which reduced basal activity by up to 90%, monovalent cations (10–500 mM, added as chloride salts) increased the enzyme activity by up to about 8-fold. The potency order obtained was Na⁺>Li⁺>K⁺>choline. The stable GTP analogue, guanylyl-5′-imidodiphosphate, which like GTP was capable of decreasing basal activity, diminished the cation-induced activation. The stimulatory effects of ACTH and isoproterenol on adipocyte adenylate cyclase activity were impaired by the cations in the potency order, Na⁺>Li⁺>K⁺>choline. Additionally, NaCl shifted the concentration-response for ACTH to the right and caused an increase in the maximal activation by the hormone. Similar to basal activity, fluoride-stimulated activity was increased by NaCl, when GTP was present. The inhibitory effect of prostaglandin E₁ on basal adipocyte adenylate cyclase activity was revealed by the cations in the above mentioned potency order by an apparent reversal of the cation-induced activation. In the presence of NaCl, the ACTH- or fluoride-stimulated activities were also reduced by prostaglandin E₁, but the inhibitory hormonal factor did not reverse the NaCl-induced shift in the concentration-response curve for ACTH. Guanylyl-5′-imidodiphosphate completely prevented hormonal inhibition. The data suggest that monovalent cations interact with the guanine nucleotide-binding regulatory component of the adipocyte adenylate cylase system and that this interaction somehow changes the properties of this component, now revealing hormone-induced inhibition partially impairing hormone-induced stimulation.