Abstact

P2X receptors (P2XRs) are adenosine 5'-triphosphate (ATP)-gated ion channels comprising homomeric and heteromeric trimers of seven subtypes (P2X1-P2X7) that confer different rates of desensitization. The helical recoil model of P2XR desensitization proposes stability of the cytoplasmic cap sets the rate of desensitization, but timing of its formation is unclear for slow-desensitizing P2XRs. We report cryo-electron microscopy structures of full-length wild-type human P2X4 receptor in apo closed, antagonist-bound inhibited, and ATP-bound desensitized states. Because the apo closed and antagonist-bound inhibited state structures of this slow-desensitizing P2XR include an intact cytoplasmic cap while the ATP-bound desensitized state structure does not, the cytoplasmic cap is formed before agonist binding. Furthermore, structural and functional data suggest the cytoplasmic cap is stabilized by lipids to modulate desensitization, and P2X4 is modified by glycosylation and palmitoylation. Last, our antagonist-bound inhibited state structure reveals features specific to the allosteric ligand-binding pocket in human receptors that facilitates development of small-molecule modulators.