Oligomerization and cooperativity in GPCRs from the perspective of the angiotensin AT1 and dopamine D2 receptors

Isik Kantarcioglu; Ramin Ekhteiari Salmas; Ismail Erol; Serdar Durdagi; Busecan Aksoydan

doi:10.1016/j.neulet.2018.04.028

Oligomerization and cooperativity in GPCRs from the perspective of the angiotensin AT1 and dopamine D2 receptors

Isik Kantarcioglu, Ramin Ekhteiari Salmas, Ismail Erol, Serdar Durdagi^*, Busecan Aksoydan

^*Corresponding author for this work

Chemistry

Research output: Contribution to journal › Article › peer-review

16 Citations (Scopus)

Abstract

G Protein-Coupled Receptors (GPCRs) can form homo- and heterodimers or constitute higher oligomeric clusters with other heptahelical GPCRs. In this article, multiscale molecular modeling approaches as well as experimental techniques which are used to study oligomerization of GPCRs are reviewed. In particular, the effect of dimerization/oligomerization to the ligand binding affinity of individual protomers and also on the efficacy of the oligomer are discussed by including diverse examples from the literature. In addition, possible allosteric effects that may emerge upon interaction of GPCRs with membrane components, like cholesterol, is also discussed. Investigation of these above-mentioned interactions may greatly contribute to the candidate molecule screening studies and development of novel therapeutics with fewer adverse effects.

Original language	English
Journal	Neuroscience Letters
Early online date	20 Apr 2018
DOIs	https://doi.org/10.1016/j.neulet.2018.04.028
Publication status	E-pub ahead of print - 20 Apr 2018

Keywords

Allosteric effects
Angiotensin AT1 receptor
Dopamine D2 receptor
GPCRs
MD simulations
Molecular modeling
Oligomerization
Protein-protein docking

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10.1016/j.neulet.2018.04.028

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title = "Oligomerization and cooperativity in GPCRs from the perspective of the angiotensin AT1 and dopamine D2 receptors",

abstract = "G Protein-Coupled Receptors (GPCRs) can form homo- and heterodimers or constitute higher oligomeric clusters with other heptahelical GPCRs. In this article, multiscale molecular modeling approaches as well as experimental techniques which are used to study oligomerization of GPCRs are reviewed. In particular, the effect of dimerization/oligomerization to the ligand binding affinity of individual protomers and also on the efficacy of the oligomer are discussed by including diverse examples from the literature. In addition, possible allosteric effects that may emerge upon interaction of GPCRs with membrane components, like cholesterol, is also discussed. Investigation of these above-mentioned interactions may greatly contribute to the candidate molecule screening studies and development of novel therapeutics with fewer adverse effects.",

keywords = "Allosteric effects, Angiotensin AT1 receptor, Dopamine D2 receptor, GPCRs, MD simulations, Molecular modeling, Oligomerization, Protein-protein docking",

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T1 - Oligomerization and cooperativity in GPCRs from the perspective of the angiotensin AT1 and dopamine D2 receptors

AU - Kantarcioglu, Isik

AU - Salmas, Ramin Ekhteiari

AU - Erol, Ismail

AU - Durdagi, Serdar

AU - Aksoydan, Busecan

PY - 2018/4/20

Y1 - 2018/4/20

N2 - G Protein-Coupled Receptors (GPCRs) can form homo- and heterodimers or constitute higher oligomeric clusters with other heptahelical GPCRs. In this article, multiscale molecular modeling approaches as well as experimental techniques which are used to study oligomerization of GPCRs are reviewed. In particular, the effect of dimerization/oligomerization to the ligand binding affinity of individual protomers and also on the efficacy of the oligomer are discussed by including diverse examples from the literature. In addition, possible allosteric effects that may emerge upon interaction of GPCRs with membrane components, like cholesterol, is also discussed. Investigation of these above-mentioned interactions may greatly contribute to the candidate molecule screening studies and development of novel therapeutics with fewer adverse effects.

AB - G Protein-Coupled Receptors (GPCRs) can form homo- and heterodimers or constitute higher oligomeric clusters with other heptahelical GPCRs. In this article, multiscale molecular modeling approaches as well as experimental techniques which are used to study oligomerization of GPCRs are reviewed. In particular, the effect of dimerization/oligomerization to the ligand binding affinity of individual protomers and also on the efficacy of the oligomer are discussed by including diverse examples from the literature. In addition, possible allosteric effects that may emerge upon interaction of GPCRs with membrane components, like cholesterol, is also discussed. Investigation of these above-mentioned interactions may greatly contribute to the candidate molecule screening studies and development of novel therapeutics with fewer adverse effects.

KW - Allosteric effects

KW - Angiotensin AT1 receptor

KW - Dopamine D2 receptor

KW - GPCRs

KW - MD simulations

KW - Molecular modeling

KW - Oligomerization

KW - Protein-protein docking

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DO - 10.1016/j.neulet.2018.04.028

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SN - 0304-3940

JO - Neuroscience Letters

JF - Neuroscience Letters

ER -

Oligomerization and cooperativity in GPCRs from the perspective of the angiotensin AT1 and dopamine D2 receptors

Abstract

Keywords

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