Differential regulation of the uridine nucleotide-activated P2Y4 and P2Y6 receptors - Ser-333 and Ser-334 in the carboxyl terminus are involved in agonist-dependent phosphorylation desensitization and internalization of the P2Y4 receptor

Agonist-promoted regulation of the uridine nucleotide activated human P2Y4 receptor (P2Y4-R) and P2Y6 receptor (P2Y6-R) was studied. Incubation of P2Y 4-R-expressing 1321N1 human astrocytoma cells with the cognate agonist UTP resulted in rapid desensitization of the inositol phosphate response and a 50% loss of cell surface receptors. In contrast, incubation of P2Y6-R-expre ssing cells with the cognate agonist UDP caused neither rapid desensitizati on nor rapid loss of cell surface receptors. Removal of UTP from the medium of UTP-pretreated cells resulted in rapid and complete recovery of surface P2Y4-R even after 12 h of agonist treatment. Although extended incubation with UDP also caused a loss of surface P2Y6-R, rapid recovery of surface P2 Y6-R did not occur following removal of agonist. Pharmacological studies in dicated that neither protein kinase C nor other Ca2+-activated kinases were involved in agonist-promoted desensitization or loss of surface P2Y4-R or P2Y6-R Mutational analyses were carried out to identify domains involved in agonist-dependent regulation of P2Y4-R Sequential truncation of the carbox yl-terminal domain revealed that sequence between amino acids 332 and 343 w as necessary for UTP-promoted desensitization and internalization. Further mutational analyses of the three serines in this domain confirmed that Ser- 333 and Ser-334 play a major role in these agonist promoted changes in P2Y4 -R. Experiments were carried out with [P-32]P-i-labeled cells to ascertain the role of phosphorylation in regulation of P2Y4-R Incubation with UTP for 2 min caused a marked increase in phosphorylation of both the wild-type P2 Y4-R and the P2Y4-343 truncation mutant. In contrast, no UTP-promoted phosp horylation of the P2Y4-332 truncation mutant was observed. Taken together, these results demonstrate differential regulation of uridine nucleotide-act ivated P2Y4-R and P2Y6-R and indicate that Ser-333 and Ser-334 in the carbo xyl terminus of P2Y4-R are important for UTP-dependent phosphorylation, des ensitization, and loss of surface receptors.