Selective down-regulation of cell surface cAMP-binding sites and cAMP-induced responses in Dictyostelium discoideum

Abstract

Extracellular cAMP induces an intracellular accumulation of cAMP and cGMP levels in Dictyostelium discoideum. cAMP is detected by cell-surface receptors which are composed of a class of fast-dissociating sites ( t 1 2 = 1−2 s ) and a class of slow-dissociating sites ( t 1 2 = 15−150 s ). Exposure of D. discoideum cells to 1 mM cAMP for 30 min induces a reduction of cAMP binding (down-regulation; Klein, C. and Juliani, M.H. (1977) Cell 10, 329–335). The number of fast-dissociating sites was reduced by 80–90% in down-regulated cells. These sites are composed of two forms with high and low affinity which interconvert during the binding reaction. In down-regulated cells this transition still occurred in the residual sites. The accumulation of cellular cAMP levels induced by a saturating stimulus decreased by 80–90%. The number of slow-dissociating sites was not significantly reduced in down-regulated cells, but their affinity decreased about 10-fold. The accumulation of cellular cGMP levels induced by a saturating stimulus was not decreased; however, about 20-fold higher cAMP concentrations were required to induce the same response. These results demonstrate that the cAMP transduction pathways to adenylate cyclase and guanylate cyclase are down-regulated differently. Furthermore, the results suggest that the fast-dissociating sites are involved in the activation of adenylate cyclase, while the slow-dissociating sites are coupled to guanylate cyclase.