Allosteric Modulation of the Adenosine Family of Receptors

Overview

Journal Mini Rev Med Chem

Publisher Bentham Science Publishers

Specialty Chemistry

Date 2005 Jun 25

PMID 15974932

Citations 21

Authors

Zhan-Guo Gao

Soo-Kyung Kim

Adriaan P IJzerman

Kenneth A Jacobson

Affiliations

Soon will be listed here.

Abstract

Allosteric modulators for adenosine receptors (ARs) are of an increasing interest and may have potential therapeutic advantage over orthosteric ligands. Benzoylthiophene derivatives (including PD 81,723), 2-aminothiazolium salts, and related allosteric modulators of the A(1) AR have been studied. The benzoylthiophene derivatives were demonstrated to be selective enhancers for the A(1) AR, with little or no effect on other subtypes of ARs. Allosteric modulation of the A(2A) AR has also been reported. A(3) allosteric enhancers may be predicted to be useful against ischemic conditions. We have recently characterized two classes of A(3) AR allosteric modulators: 3-(2-pyridinyl)isoquinolines (e.g. VUF5455) and 1H-imidazo-[4,5-c]quinolin-4-amines (e.g. DU124183), which selectively decreased the agonist dissociation rate at the human A(3)AR but not at A(1) and A(2A) ARs. DU124183 left-shifted the agonist conc.-response curve for inhibition of forskolin-stimulated cAMP accumulation in intact cells expressing the human A(3)AR with up to 30% potentiation of the maximal efficacy. The increased potency of A(3) agonists was evident only in the presence of an A(3) antagonist, since VUF5455 and DU124183 also antagonized, i.e. displaced binding at the orthosteric site, with K(i) values of 1.68 and 0.82 microM, respectively. A(3)AR mutagenesis studies implicated F182(5.43) and N274(7.45) in the action of the enhancers and was interpreted using a rhodopsin-based A(3)AR molecular model, suggesting multiple binding modes. Amiloride analogues, SCH-202676 (N-(2,3-diphenyl-1,2,4-thiadiazol-5(2H)-ylidene)methanamine), and sodium ions were demonstrated to be common allosteric modulators for at least three subtypes (A(1), A(2A), and A(3)) of ARs.

Citing Articles

Small molecule allosteric modulation of the adenosine A receptor.

Nguyen A, Tran Q, Baltos J, McNeill S, Nguyen D, May L Front Endocrinol (Lausanne). 2023; 14:1184360.

PMID: 37435481 PMC: 10331460. DOI: 10.3389/fendo.2023.1184360.

Adenosine as a Key Mediator of Neuronal Survival in Cerebral Ischemic Injury.

Khan H, Kaur P, Singh T, Grewal A, Sood S Neurochem Res. 2022; 47(12):3543-3555.

PMID: 36042141 DOI: 10.1007/s11064-022-03737-3.

Allosteric Modulation of Adenosine A Receptors as a New Therapeutic Avenue.

Korkutata M, Agrawal L, Lazarus M Int J Mol Sci. 2022; 23(4).

PMID: 35216213 PMC: 8880556. DOI: 10.3390/ijms23042101.

Adenosine Receptors in Neuropsychiatric Disorders: Fine Regulators of Neurotransmission and Potential Therapeutic Targets.

Pasquini S, Contri C, Merighi S, Gessi S, Borea P, Varani K Int J Mol Sci. 2022; 23(3).

PMID: 35163142 PMC: 8835915. DOI: 10.3390/ijms23031219.

Molecular mechanism of allosteric modulation at GPCRs: insight from a binding kinetics study at the human A1 adenosine receptor.

Guo D, Venhorst S, Massink A, Veldhoven J, Vauquelin G, IJzerman A Br J Pharmacol. 2014; 171(23):5295-312.

PMID: 25040887 PMC: 4294041. DOI: 10.1111/bph.12836.

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