Activation of the angiotensin II type 1 receptor leads to movement of the sixth transmembrane domain: analysis by the substituted cysteine accessibility method.

The role of transmembrane domain six (TMD6) of the angiotensin II type 1 receptor, which is predicted to undergo conformational changes after agonist binding, was investigated using the substituted-cysteine accessibility method. Each residue in the Lys240-Leu265 fragment was mutated, one at a time, to a cysteine. The resulting mutants were expressed in COS-7 cells, which were subsequently treated with the charged sulfhydryl-specific alkylating agent methanethiosulfonate-ethylammonium (MTSEA). This treatment led to a significant reduction in binding of (125)I-[Sar(1),Ile(8)]AngII to the F249C, H256C, T260C, and V264C mutant receptors, suggesting that these residues orient themselves within the water-accessible binding pocket of the AT(1) receptor. It is noteworthy that this pattern of acquired MTSEA sensitivity was altered for TMD6 cysteines engineered in a constitutively active AT(1) receptor. Indeed, mutant F249C was insensitive to MTSEA treatment, whereas the sensitivity of mutant V264C decreased. Under these conditions, one other mutant, F261C, was found to be sensitive to MTSEA treatment. Our results suggest that constitutive activation of the AT(1) receptor causes TMD6 to pivot. This movement moves the top (extracellular side) of TMD6 toward the binding pocket and simultaneously distances the bottom (intracellular side) away from the binding pocket. Using this approach, we identified key elements within TMD6 that contribute to the activation of class A GPCRs through structural rearrangements.