Antagonist binding and induced conformational dynamics of GPCR A2A adenosine receptor

The A_2A adenosine receptor (A_2AAR) is a unique G‐protein coupled receptor (GPCR), because besides agonist, its antagonist could also lead to therapeutic relevance. Based on A_2AAR‐antagonist crystal structure, we have studied the binding mechanism of two distinct antagonists, ZM241385 and KW6002, and dynamic behaviors of A_2AAR induced by antagonist binding. Key residues interacting with both antagonists and residues specifically binding to one of them are identified. ZM241385 specifically bound to S67^2.65, M177^5.38, and N253^6.55, while KW6002 binds to F62^2.60, A81^3.29, and H264^7.29. Moreover, interactions with L167^5.28 are found for both antagonists, which were not reported in agonist binding. The dynamic behaviors of antagonist bound holo‐A_2AARs were found to be different from the apo‐A_2AAR in three typical functional switches, (i) the “ionic lock” was in equilibrium between formation and breakage in apo‐A_2AAR, but stayed broken in holo‐A_2AARs; (ii) the “rotamer toggle switch,” T88^3.36/F242^6.44/W246^6.48, adopted different rotameric conformations in apo‐A_2AAR and holo‐A_2AARs; (iii) apo‐A_2AAR preferred α‐helical intracellular loop (IC)2 and flexible IC3, while holo‐A_2AARs had a flexible IC2 and α‐helical IC3. Our results indicated that antagonist binding induced different conformational rearrangements of these characteristic functional switches in apo‐A_2AAR and holo‐A_2AARs. Proteins 2013; 81:1399–1410. © 2013 Wiley Periodicals, Inc.