Angiotensin II type 1/adenosine A 2A receptor oligomers: a novel target for tardive dyskinesia

Angiotensin II type 1/adenosine A 2A receptor oligomers: a novel target for tardive dyskinesia

Abstract Tardive dyskinesia (TD) is a serious motor side effect that may appear after long-term treatment with neuroleptics and mostly mediated by dopamine D2 receptors (D2Rs). Striatal D2R functioning may be finely regulated by either adenosine A2A receptor (A2AR) or angiotensin receptor type 1 (AT...

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Main Authors: Paulo A. de Oliveira, James A. R. Dalton, Marc López-Cano, Adrià Ricarte, Xavier Morató, Filipe C. Matheus, Andréia S. Cunha, Christa E. Müller, Reinaldo N. Takahashi, Víctor Fernández-Dueñas, Jesús Giraldo, Rui D. Prediger, Francisco Ciruela
Format: Article
Language:English
Published: Nature Publishing Group 2017-05-01
Series:Scientific Reports
Online Access:https://doi.org/10.1038/s41598-017-02037-z
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spelling doaj-627f7a95432f4193ae2fb95d8887e02b2020-12-08T00:30:55ZengNature Publishing GroupScientific Reports2045-23222017-05-017111210.1038/s41598-017-02037-zAngiotensin II type 1/adenosine A 2A receptor oligomers: a novel target for tardive dyskinesiaPaulo A. de Oliveira0James A. R. Dalton1Marc López-Cano2Adrià Ricarte3Xavier Morató4Filipe C. Matheus5Andréia S. Cunha6Christa E. Müller7Reinaldo N. Takahashi8Víctor Fernández-Dueñas9Jesús Giraldo10Rui D. Prediger11Francisco Ciruela12Departamento de Farmacologia, Universidade Federal de Santa Catarina, TrindadeInstitut de Neurociències and Unitat de Bioestadística, Universitat Autònoma de Barcelona, Network Biomedical Research Center on Mental Health (CIBERSAM)Unitat de Farmacologia, Departament de Patologia i Terapèutica Experimental, Facultat de Medicina, IDIBELL-Universitat de BarcelonaInstitut de Neurociències and Unitat de Bioestadística, Universitat Autònoma de Barcelona, Network Biomedical Research Center on Mental Health (CIBERSAM)Unitat de Farmacologia, Departament de Patologia i Terapèutica Experimental, Facultat de Medicina, IDIBELL-Universitat de BarcelonaDepartamento de Farmacologia, Universidade Federal de Santa Catarina, TrindadeDepartamento de Farmacologia, Universidade Federal de Santa Catarina, TrindadePharmaCenter Bonn, Pharmaceutical Institute, Pharmaceutical Chemistry I, University of BonnDepartamento de Farmacologia, Universidade Federal de Santa Catarina, TrindadeUnitat de Farmacologia, Departament de Patologia i Terapèutica Experimental, Facultat de Medicina, IDIBELL-Universitat de BarcelonaInstitut de Neurociències and Unitat de Bioestadística, Universitat Autònoma de Barcelona, Network Biomedical Research Center on Mental Health (CIBERSAM)Departamento de Farmacologia, Universidade Federal de Santa Catarina, TrindadeUnitat de Farmacologia, Departament de Patologia i Terapèutica Experimental, Facultat de Medicina, IDIBELL-Universitat de BarcelonaAbstract Tardive dyskinesia (TD) is a serious motor side effect that may appear after long-term treatment with neuroleptics and mostly mediated by dopamine D2 receptors (D2Rs). Striatal D2R functioning may be finely regulated by either adenosine A2A receptor (A2AR) or angiotensin receptor type 1 (AT1R) through putative receptor heteromers. Here, we examined whether A2AR and AT1R may oligomerize in the striatum to synergistically modulate dopaminergic transmission. First, by using bioluminescence resonance energy transfer, we demonstrated a physical AT1R-A2AR interaction in cultured cells. Interestingly, by protein-protein docking and molecular dynamics simulations, we described that a stable heterotetrameric interaction may exist between AT1R and A2AR bound to antagonists (i.e. losartan and istradefylline, respectively). Accordingly, we subsequently ascertained the existence of AT1R/A2AR heteromers in the striatum by proximity ligation in situ assay. Finally, we took advantage of a TD animal model, namely the reserpine-induced vacuous chewing movement (VCM), to evaluate a novel multimodal pharmacological TD treatment approach based on targeting the AT1R/A2AR complex. Thus, reserpinized mice were co-treated with sub-effective losartan and istradefylline doses, which prompted a synergistic reduction in VCM. Overall, our results demonstrated the existence of striatal AT1R/A2AR oligomers with potential usefulness for the therapeutic management of TD.https://doi.org/10.1038/s41598-017-02037-z
collection DOAJ
language English
format Article
sources DOAJ
author Paulo A. de Oliveira
James A. R. Dalton
Marc López-Cano
Adrià Ricarte
Xavier Morató
Filipe C. Matheus
Andréia S. Cunha
Christa E. Müller
Reinaldo N. Takahashi
Víctor Fernández-Dueñas
Jesús Giraldo
Rui D. Prediger
Francisco Ciruela
spellingShingle Paulo A. de Oliveira
James A. R. Dalton
Marc López-Cano
Adrià Ricarte
Xavier Morató
Filipe C. Matheus
Andréia S. Cunha
Christa E. Müller
Reinaldo N. Takahashi
Víctor Fernández-Dueñas
Jesús Giraldo
Rui D. Prediger
Francisco Ciruela
Angiotensin II type 1/adenosine A 2A receptor oligomers: a novel target for tardive dyskinesia
Scientific Reports
author_facet Paulo A. de Oliveira
James A. R. Dalton
Marc López-Cano
Adrià Ricarte
Xavier Morató
Filipe C. Matheus
Andréia S. Cunha
Christa E. Müller
Reinaldo N. Takahashi
Víctor Fernández-Dueñas
Jesús Giraldo
Rui D. Prediger
Francisco Ciruela
author_sort Paulo A. de Oliveira
title Angiotensin II type 1/adenosine A 2A receptor oligomers: a novel target for tardive dyskinesia
title_short Angiotensin II type 1/adenosine A 2A receptor oligomers: a novel target for tardive dyskinesia
title_full Angiotensin II type 1/adenosine A 2A receptor oligomers: a novel target for tardive dyskinesia
title_fullStr Angiotensin II type 1/adenosine A 2A receptor oligomers: a novel target for tardive dyskinesia
title_full_unstemmed Angiotensin II type 1/adenosine A 2A receptor oligomers: a novel target for tardive dyskinesia
title_sort angiotensin ii type 1/adenosine a 2a receptor oligomers: a novel target for tardive dyskinesia
publisher Nature Publishing Group
series Scientific Reports
issn 2045-2322
publishDate 2017-05-01
description Abstract Tardive dyskinesia (TD) is a serious motor side effect that may appear after long-term treatment with neuroleptics and mostly mediated by dopamine D2 receptors (D2Rs). Striatal D2R functioning may be finely regulated by either adenosine A2A receptor (A2AR) or angiotensin receptor type 1 (AT1R) through putative receptor heteromers. Here, we examined whether A2AR and AT1R may oligomerize in the striatum to synergistically modulate dopaminergic transmission. First, by using bioluminescence resonance energy transfer, we demonstrated a physical AT1R-A2AR interaction in cultured cells. Interestingly, by protein-protein docking and molecular dynamics simulations, we described that a stable heterotetrameric interaction may exist between AT1R and A2AR bound to antagonists (i.e. losartan and istradefylline, respectively). Accordingly, we subsequently ascertained the existence of AT1R/A2AR heteromers in the striatum by proximity ligation in situ assay. Finally, we took advantage of a TD animal model, namely the reserpine-induced vacuous chewing movement (VCM), to evaluate a novel multimodal pharmacological TD treatment approach based on targeting the AT1R/A2AR complex. Thus, reserpinized mice were co-treated with sub-effective losartan and istradefylline doses, which prompted a synergistic reduction in VCM. Overall, our results demonstrated the existence of striatal AT1R/A2AR oligomers with potential usefulness for the therapeutic management of TD.
url https://doi.org/10.1038/s41598-017-02037-z
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