Contributions of the C-terminal domain to the control of P2X receptor desensitization

The P2X purinergic receptor channels (P2XRs) differ among themselves with respect to the rates of desensitization during prolonged agonist stimulation. Here we studied the desensitization of recombinant channels by monitoring the changes in intracellular free Ca2+ concentration in cells stimulated with ATP, the native and common agonist for all P2XRs. The focus in our investigations was on the relevance of the P2XR C terminus in controlling receptor desensitization. When expressed in GT1 cells, the P2XRs desensitized with rates characteristic to each receptor subtype: P2X(1)R = P2X(3)R > P2X(2b)R > P2X(4)R > P2X(2a)R > P2X(7)R. A slow desensitizing pattern of P2X(2a)R was mimicked partially by P2X(3)R and fully by P2X(4)R when the six-amino acid sequences of these channels located in the cytoplasmic C terminus were substituted with the corresponding arginine 371 to proline 376 sequence of P2X(2a)R. Changing the total net charge in the six amino acids of P2X(4)R to a more positive direction also slowed the receptor desensitization. On the other hand, substitution of arginine 371-proline 376 sequence of P2X(2a)R with the corresponding sequences of P2X(1)R, P2X(3)R, and P2X(4)R increased the rate of receptor desensitization. Furthermore, heterologous polymerization of wild-type P2X(2a)R and mutant P2X(3)R having the C-terminal six amino acids of P2X(2a)R at its analogous position resulted in a functional channel whose desensitization was significantly delayed. These results suggest that composition of the C-terminal six-amino acid sequence and its electrostatic force influence the rate of receptor desensitization.