Mutation of the third intracellular loop of the cAMP receptor, cAR1, of Dictyostelium yields mutants impaired in multiple signaling pathways.

Abstract

Seven-membrane span receptors transduce a wide range of signals across the plasma membrane. One member of this family, the cAMP receptor, cAR1, of Dictyostelium, mediates some responses (e.g. adenylyl cyclase activation, multicellular aggregation) which require G-proteins and others (e.g. Ca2+ influx, loss of ligand binding, cAR1 phosphorylation) which appear to be G-protein-independent. In this study, we randomly mutagenized the NH2-terminal eight amino acids of the third intracellular loop of cAR1 and examined the ability of these mutants to exhibit the three G-protein-independent responses listed above. Most mutants (classes I, II) exhibited wild-type or midly defective responses. Several mutants (class III), however, were severely impaired in all three processes but not in cAMP binding. Furthermore, these mutants failed to couple productively with G-proteins and could not replace cAR1 in a car1- cell. For these reasons, we propose that class III mutations interfere with the formation of an "active" conformation of the receptor.