Abstract
There is evidence for strong functional antagonistic interactions between adenosine A2A receptors (A2ARs) and dopamine D2 receptors (D2Rs). Although a close physical interaction between both receptors has recently been shown using co-immunoprecipitation and co-localization assays, the existence of a A2AR-D2R protein-protein interaction still had to be demonstrated in intact living cells. In the present work, fluorescence resonance energy transfer (FRET) and bioluminescence resonance energy transfer (BRET) techniques were used to confirm the occurrence of A2AR-D2R interactions in co-transfected cells. The degree of A2AR-D2R heteromerization, measured by BRET, did not vary after receptor activation with selective agonists, alone or in combination. BRET competition experiments were performed using a chimeric D2R-D1R in which helices 5 and 6, the third intracellular loop (I3), and the third extracellular loop (E3) of the D2R were replaced by those of the dopamine D1 receptor (D1R). Although the wild type D2R was able to decrease the BRET signal, the chimera failed to achieve any effect. This suggests that the helix 5-I3-helix 6-E3 portion of D2R holds the site(s) for interaction with A2AR. Modeling of A2AR and D2R using a modified rhodopsin template followed by molecular dynamics and docking simulations gave essentially two different possible modes of interaction between D2R and A2AR. In the most probable one, helix 5 and/or helix 6 and the N-terminal portion of I3 from D2R approached helix 4 and the C-terminal portion of the C-tail from the A2AR, respectively.
Highlights
There is evidence for strong functional antagonistic interactions between adenosine A2A receptors (A2ARs) and dopamine D2 receptors (D2Rs)
These two receptors are localized in one subtype of neurons, 1 The abbreviations used are: Heptaspanning membrane receptors (HSMRs), heptaspanning membrane receptor; G proteincoupled receptors (GPCRs), G protein-coupled receptor; YFP, yellow fluorescent protein; BRET, bioluminescence resonance energy transfer; FRET, fluorescence resonance energy transfer; En, extracellular loop n; In, intracellular loop n; Mes, 4-morpholineethanesulfonic acid; ANOVA, analysis of variance; Rluc, Renilla luciferase; EYFP enhanced yellow fluorescent protein; CHO, Chinese hamster ovary; GFP, green fluorescent protein; PDB, Protein Data Bank; GABA, ␥-aminobutyric acid; PBS, phosphate-buffered saline; CH, channel; A2AR, adenosine A2A receptor; DnR, dopamine Dn receptor
Functionality of Modified A2ARs and D2Rs—The formation of A2AR-D2R heterodimers was demonstrated by BRET and FRET techniques in cells transfected with fusion proteins consisting of each receptor and either a fluorescent protein (GFP2, YFP) or Renilla luciferase (Rluc)
Summary
Vol 278, No 47, Issue of November 21, pp. 46741–46749, 2003 Printed in U.S.A. QUALITATIVE AND QUANTITATIVE ASSESSMENT BY FLUORESCENCE AND BIOLUMINESCENCE ENERGY TRANSFER*□S. It has become clear that HSMRs are oligomeric structures formed by receptor homodimers, heterodimers, and multimers and a variety of proteins interacting at the plane of the membrane (horizontal level) or across the plane of the membrane (vertical level) [1,2,3,4,5,6] Current investigation of these macromolecular complexes offers great potential for functional proteomics and offers deeper insight into information handling at the cellular level. Important experimental evidence has accumulated in relation to the existence of functional interactions between A2ARs and D2Rs in the basal ganglia [5, 7, 8] These two receptors are localized in one subtype of neurons,.
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