Abstract
The octapeptide hormone angiotensin II (AngII) exerts a wide variety of cardiovascular effects through the activation of the AT(1) receptor, which belongs to the G protein-coupled receptor superfamily. Like other G protein-coupled receptors, the AT(1) receptor possesses seven transmembrane domains that provide structural support for the formation of the ligand-binding pocket. Here, we investigated the role of the first and fourth transmembrane domains (TMDs) in the formation of the binding pocket of the human AT(1) receptor using the substituted-cysteine accessibility method. Each residue within the Phe-28((1.32))-Ile-53((1.57)) fragment of TMD1 and Leu-143((4.40))-Phe-170((4.67)) fragment of TMD4 was mutated, one at a time, to a cysteine. The resulting mutant receptors 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 the binding affinity of TMD1 mutants M30C((1.34))-AT(1) and T33C((1.37))-AT(1) and TMD4 mutant V169C((4.66))-AT(1). Although this reduction in binding of the TMD1 mutants was maintained when examined in a constitutively active receptor (N111G-AT(1)) background, we found that V169C((4.66))-AT(1) remained unaffected when treated with MTSEA compared with untreated in this context. Moreover, the complete loss of binding observed for R167C((4.64))-AT(1) was restored upon treatment with MTSEA. Our results suggest that the extracellular portion of TMD1, particularly residues Met-30((1.34)) and Thr-33((1.37)), as well as residues Arg-167((4.64)) and Val-169((4.66)) at the junction of TMD4 and the second extracellular loop, are important binding determinants within the AT(1) receptor binding pocket but that these TMDs undergo very little movement, if at all, during the activation process.
Highlights
We made use of theN111G-AT1 receptor to assess and map the potentially altered accessibility of methanethiosulfonate ethylammonium (MTSEA) to engineered cysteines in a constitutively activeN111G-AT1 receptor background
Binding Properties of Mutant AT1 Receptors Bearing Cysteines in TMD1 and TMD4—To identify the residues in TMD1 and TMD4 that bound radioactivity was evaluated by ␥ counting
Treatment with MTSEA—The MTSEA treatment was per- the conservation of global conformation of these receptors formed according to the procedure of Javitch et al (21), with after such substitution, pharmacological parameters describing minor modifications
Summary
N111G-AT1 receptor background, most cysteine-substituted mutants conserved a high binding affinity for the competitive ligand 125I-[Sar-. Mutants F28C(1.32)-N111G-AT1, I31C(1.35)-N111G-AT1, P32C(1.36)N111G-AT1, L35C(1.39)-N111GAT1, G45C(1.49)-N111G-AT1, and N46C(1.50)-N111G-AT1 and TMD4 mutants P162C(4.59)-N111G-AT1, A163C(4.60)-N111G-AT1, R167C(4.64)N111G-AT1, and F170C(4.67)-N111G-. AT1 showed no detectable binding affinity and were not used for the SCAM analysis. N111GAT1 mutant receptor exhibited binding activity in the constitutively active state but not in the inactive, ground state F170C(4.67)-AT1 did not display any detectable binding activity P162C(4.59)-AT1 mutant receptor exhibited binding activity in the and were not used for SCAM analysis. Ground state background only (Table 2 versus Table 4)
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