Ivana Domazet scite author profile

The octapeptide angiotensin II (AngII) exerts a variety of cardiovascular effects through the activation of the AngII type 1 receptor (AT 1 ), a G protein-coupled receptor. The AT 1 receptor engages and activates several signaling pathways, including heterotrimeric G proteins G q and G 12 , as well as the extracellular signal-regulated kinases (ERK) 1/2 pathway. Additionally, following stimulation, barrestin is recruited to the AT 1 receptor, leading to receptor desensitization. It is increasingly recognized that specific ligands selectively bind and favor the activation of some signaling pathways over others, a concept termed ligand bias or functional selectivity. A better understanding of the molecular basis of functional selectivity may lead to the development of better therapeutics with fewer adverse effects. In the present study, we developed assays allowing the measurement of six different signaling modalities of the AT 1 receptor. Using a series of AngII peptide analogs that were modified in positions 1, 4, and 8, we sought to better characterize the molecular determinants of AngII that underlie functional selectivity of the AT 1 receptor in human embryonic kidney 293 cells. The results reveal that position 1 of AngII does not confer functional selectivity, whereas position 4 confers a bias toward ERK signaling over G q signaling, and position 8 confers a bias toward barrestin recruitment over ERK activation and G q signaling. Interestingly, the analogs modified in position 8 were also partial agonists of the protein kinase C (PKC)-dependent ERK pathway via atypical PKC isoforms PKCz and PKCi.

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Identification of transmembrane domain 6 & 7 residues that contribute to the binding pocket of the urotensin II receptor

Holleran

Domazet

Beaulieu

et al. 2009

Biochemical Pharmacology

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The Fifth Transmembrane Domain of Angiotensin II Type 1 Receptor Participates in the Formation of the Ligand-binding Pocket and Undergoes a Counterclockwise Rotation upon Receptor Activation

Domazet

Martin

Holleran

et al. 2009

Journal of Biological Chemistry

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The octapeptide hormone angiotensin II exerts a wide variety of cardiovascular effects through the activation of the angiotensin II Type 1 (AT 1 ) receptor, which belongs to the G protein-coupled receptor superfamily. Like other G proteincoupled receptors, the AT 1 receptor possesses seven transmembrane domains that provide structural support for the formation of the ligand-binding pocket. The role of the fifth transmembrane domain (TMD5) was investigated using the substituted cysteine accessibility method. All of the residues within Thr-190 to Leu-217 region were mutated one at a time to cysteine, and after expression in COS-7 cells, the mutant receptors were treated with the sulfhydryl-specific alkylating agent methanethiosulfonate-ethylammonium (MTSEA). MTSEA reacts selectively with water-accessible, free sulfhydryl groups of endogenous or introduced point mutation cysteines. If a cysteine is found in the binding pocket, the covalent modification will affect the binding kinetics of the ligand. MTSEA substantially decreased the binding affinity of L197C-AT 1 , N200C-AT 1 , I201C-AT 1 , G203C-AT 1 , and F204C-AT 1 mutant receptors, which suggests that these residues orient themselves within the wateraccessible binding pocket of the AT 1 receptor. Interestingly, this pattern of acquired MTSEA sensitivity was altered for TMD5 reporter cysteines engineered in a constitutively active N111G-AT 1 receptor background. Indeed, mutant I201C-N111G-AT 1 became more sensitive to MTSEA, whereas mutant G203C-N111G-AT 1 lost some sensitivity. Our results suggest that constitutive activation of AT 1 receptor causes an apparent counterclockwise rotation of TMD5 as viewed from the extracellular side.

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The Second Transmembrane Domain of the Human Type 1 Angiotensin II Receptor Participates in the Formation of the Ligand Binding Pocket and Undergoes Integral Pivoting Movement during the Process of Receptor Activation

Domazet

Holleran

Martin

et al. 2009

Journal of Biological Chemistry

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The octapeptide hormone angiotensin II (AngII) exerts a wide variety of cardiovascular effects through the activation of the angiotensin II type-1 (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. In order to identify those residues in the second transmembrane domain (TMD2) that contribute to the formation of the binding pocket of the AT 1 receptor, we used the substituted cysteine accessibility method. All of the residues within the Leu-70 to Trp-94 region were mutated one at a time to a cysteine, and, after expression in COS-7 cells, the mutant receptors were treated with the sulfhydryl-specific alkylating agent methanethiosulfonate-ethylammonium (MTSEA). MTSEA reacts selectively with water-accessible, free sulfhydryl groups of endogenous or introduced point mutation cysteines. If a cysteine is found in the binding pocket, the covalent modification will affect the binding kinetics of the ligand.

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Ivana Domazet

Characterization of Angiotensin II Molecular Determinants Involved in AT₁ Receptor Functional Selectivity

Identification of transmembrane domain 6 & 7 residues that contribute to the binding pocket of the urotensin II receptor

The Fifth Transmembrane Domain of Angiotensin II Type 1 Receptor Participates in the Formation of the Ligand-binding Pocket and Undergoes a Counterclockwise Rotation upon Receptor Activation

The Second Transmembrane Domain of the Human Type 1 Angiotensin II Receptor Participates in the Formation of the Ligand Binding Pocket and Undergoes Integral Pivoting Movement during the Process of Receptor Activation

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Ivana Domazet

Characterization of Angiotensin II Molecular Determinants Involved in AT1 Receptor Functional Selectivity

Identification of transmembrane domain 6 & 7 residues that contribute to the binding pocket of the urotensin II receptor

The Fifth Transmembrane Domain of Angiotensin II Type 1 Receptor Participates in the Formation of the Ligand-binding Pocket and Undergoes a Counterclockwise Rotation upon Receptor Activation

The Second Transmembrane Domain of the Human Type 1 Angiotensin II Receptor Participates in the Formation of the Ligand Binding Pocket and Undergoes Integral Pivoting Movement during the Process of Receptor Activation

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Characterization of Angiotensin II Molecular Determinants Involved in AT₁ Receptor Functional Selectivity