Binding Pockets of the β<sub>1</sub>- and β<sub>2</sub>-Adrenergic Receptors for Subtype-Selective Agonists

Isogaya, Masafumi; Sugimoto, Yohei; Tanimura, Ryuji; Tanaka, Rie; Kikkawa, Hideo; Nagao, Taku; Kurose, Hitoshi

doi:10.1124/mol.56.5.875

Cited by 46 publications

(49 citation statements)

References 26 publications

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“…The mutation of Val-120 to Ala shows an indirect contribution to subtype selectivity of selected agonists (8). Although ligand binding was not affected in our study we also found that activation by terbutaline, but not by broxaterol, was changed by mutation of Val-120 to Leu in our case, confirming a significant role of this position.…”

Section: Discussionsupporting

confidence: 75%

“…Isogaya et al (8) describe a number of mutations including mutation of Val-120, which is one of the positions that led to a gain-of-function mutation in our study. The mutation of Val-120 to Ala shows an indirect contribution to subtype selectivity of selected agonists (8).…”

Section: Discussionmentioning

confidence: 93%

“…3B some amino acids thought to be involved in agonist recognition are shown. These amino acids were identified previously as critical for agonist binding in models for both ␤ 1 -(30) and ␤ 2 -receptors (7,8). In addition, terbutaline is docked into the putative binding site of the receptor.…”

Section: Resultsmentioning

confidence: 99%

“…For mutation of such positions functionally different regions were selected. As the putative ligand-binding domain is embedded in the transmembrane domains (7,8) several mutations were introduced in transmembrane regions. The two mutants L154V and K253R are at the interface between transmembrane domains and intracellular loops two and three, respectively, which are thought to be involved in receptor-G protein coupling (9).…”

mentioning

confidence: 99%

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Novel Mutants of the Human β1-Adrenergic Receptor Reveal Amino Acids Relevant for Receptor Activation

Behr

Hoffmann

Ottolina

et al. 2006

Journal of Biological Chemistry

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Activation of G protein-coupled receptors like the ␤ 1 -adrenergic receptor results in conformational changes that ultimately lead to signal propagation through a G protein to an effector like adenylyl cyclase. In this study we identified amino acids that seem to be critical for activation of the human ␤ 1 -adrenergic receptor. Activation patterns of mutant receptors were analyzed using two structurally different ligands for ␤-adrenergic receptors that both are mixed agonist/antagonists. Broxaterol and terbutaline are agonists at ␤ 2 -and ␤ 3 -receptors; however, they act as antagonists at the ␤ 1 -subtype. We reasoned that this functional selectivity may be reflected by a corresponding sequence pattern in the receptor subtypes. Therefore, we exchanged single amino acids of the ␤ 1 -adrenergic receptor for residues that were identical in the ␤ 2 -and ␤ 3 -subtypes but different in the ␤ 1 -receptor. Pharmacological characterization of such receptor mutants revealed that binding of a panel of agonists and antagonists including broxaterol and terbutaline was unaltered. However, two of the mutants (I185V and D212N) were activated by broxaterol and terbutaline, which acted as antagonists at the wild-type receptor. Two additional mutants (V120L and K253R) could be activated by terbutaline alone, which is structurally more closely related to endogenous catecholamines like epinephrine than to broxaterol. A model of the human ␤ 1 -adrenergic receptor showed that the four gain-of-function mutations are outside of the putative ligand-binding domain substantiating the lack of an effect of the mutations on binding characteristics. These results support the notion that Val-120, Ile-185, Asp-212, and Lys-253 are critically involved in conformational changes occurring during receptor activation. G protein-coupled receptors (GPCRs)3 comprise a large number of structurally related membrane receptors, many of which are important drug targets. Among the receptors targeted in established therapies ␤-adrenergic receptors comprise one of the most important subgroups. The use of ␤-blockers is indicated in virtually all major cardiovascular diseases, whereas ␤ 2 -selective agonists are a mainstay in the treatment of asthma. Activation of GPCRs is a complex process that results in a state that propagates a signal to the corresponding G protein. It is thought that more than one activated state may exist (1, 2) providing a basis for transduction of different ligand-specific signals via a given receptor subtype (3). The notion that receptor activation is a multistep process whereby the receptor assumes a series of conformational intermediates provides an explanation for such functionally distinct states (4). Such functionally defined states could serve as distinct mediators of more specific drug actions.The investigation of conformational intermediates should benefit from ligands that are able to distinguish their functional identity. Alternatively it would be interesting to study distinct activation patterns at closely related receptor su...

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Section: Discussionsupporting

confidence: 75%

Section: Discussionmentioning

confidence: 93%

Section: Resultsmentioning

confidence: 99%

mentioning

confidence: 99%

See 2 more Smart Citations

Novel Mutants of the Human β1-Adrenergic Receptor Reveal Amino Acids Relevant for Receptor Activation

Behr

Hoffmann

Ottolina

et al. 2006

Journal of Biological Chemistry

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“…As with our findings, these investigations reported that amino acid substitutions were introduced within transmembrane domains. Another investigation confirmed that replacement of eight amino acids of transmembrane domain 2 of the β 1 -AR had shown that this transmembrane domain is a major determinant of the highaffinity binding of the β 1 -AR selective agonists (28). However, an amino acid in the same domain was not considered in the present study.…”

Section: Discussionmentioning

confidence: 43%

Beta-Blockers Show Inverse Agonism to a Novel Constitutively Active Mutant of β1-Adrenoceptor

Ahmed¹,

Muntasir²,

Hossain³

et al. 2006

J Pharmacol Sci

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Abstract. We obtained a new mutant of the β 1 -adrenergic receptor (β 1 -AR) by point mutations that can constitutively activate β 1 -AR. Aspartate104 of the β 1 -AR in the 2nd transmembrane was replaced with alanine. The β 1 -AR mutant expressed in human embryonic kidney (HEK)-293 cells displayed high level of constitutive activity with respect to wild-type (P<0.05), which could be partially inhibited by some beta-blockers. The constitutive activity of the mutant was confirmed by the finding that the enhanced activity is dependent on the level of receptor expression. The results of this study might have interesting implications for future studies aiming at elucidating the activation process of the β 1 -AR as well as the mechanism of action of beta-blockers.

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Vinylation of Nitro‐Substituted Indoles, Quinolinones, and Anilides with Grignard Reagents

Egris

Villacampa

Menéndez

2009

Chemistry A European J

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The reaction of vinyl Grignard reagents with o-methoxynitroarenes containing an electron-releasing substituent para to the nitro group proceeds through a pathway that is different from the initially expected Bartoli indole synthesis. Thus, instead of giving fused indole derivatives, these reactions provide a very mild and efficient new procedure for the synthesis of synthetically relevant aromatic systems containing an o-nitrovinyl moiety, such as 5-nitro-4-vinylindoles, 6-nitro-7-vinylindoles, 6-nitro-5-vinyl-2(1H)quinolinones, and 4-nitro-3-vinylanilines.

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Binding Pockets of the β₁- and β₂-Adrenergic Receptors for Subtype-Selective Agonists

Cited by 46 publications

References 26 publications

Novel Mutants of the Human β1-Adrenergic Receptor Reveal Amino Acids Relevant for Receptor Activation

Novel Mutants of the Human β1-Adrenergic Receptor Reveal Amino Acids Relevant for Receptor Activation

Beta-Blockers Show Inverse Agonism to a Novel Constitutively Active Mutant of β1-Adrenoceptor

Vinylation of Nitro‐Substituted Indoles, Quinolinones, and Anilides with Grignard Reagents

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Binding Pockets of the β1- and β2-Adrenergic Receptors for Subtype-Selective Agonists

Cited by 46 publications

References 26 publications

Novel Mutants of the Human β1-Adrenergic Receptor Reveal Amino Acids Relevant for Receptor Activation

Novel Mutants of the Human β1-Adrenergic Receptor Reveal Amino Acids Relevant for Receptor Activation

Beta-Blockers Show Inverse Agonism to a Novel Constitutively Active Mutant of β1-Adrenoceptor

Vinylation of Nitro‐Substituted Indoles, Quinolinones, and Anilides with Grignard Reagents

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Product

Resources

About

Binding Pockets of the β₁- and β₂-Adrenergic Receptors for Subtype-Selective Agonists