Carme Lluı́s scite author profile

Adenosine and dopamine signaling exert opposite effects in the basal ganglia, a brain region involved in sensory-motor integration. Thus, adenosine agonists induce motor depression and adenosine antagonists, such as caffeine, produce motor activation (1). These opposite effects result from specific antagonistic interactions between subtypes of adenosine and dopamine receptors in the striatum, the main input structure of the basal ganglia. In fact, striatal dopamine receptors and, to some extent, adenosine receptors are segregated in the two main populations of ␥-aminobutyric acid (GABA) efferent neurons. EXPERIMENTAL PROCEDURESCell Cultures-Maintenance of SH-SY5Y cells (parental and D 2 Rtransfected cells) as well as the pharmacological characterization and maintenance of D 2 R-and D 1 R-transfected mouse fibroblast Ltk Ϫ cells are described in detail elsewhere (7-9). For primary cultures, striata were removed from 16-day-old Sprague-Dawley rat embryos (B&K Universal) in Ca 2ϩ /Mg 2ϩ -free PBS supplemented with 20 units/ml penicillin and 20 g/ml streptomycin (Invitrogen). The tissue fragments were pooled and mechanically dissociated in SFM Neurobasal serum-free medium (Invitrogen), supplemented with B27 (Invitrogen), glutamine (2 mM; Invitrogen), penicillin/streptomycin (20 units/ml/20 g/ml; Invitrogen), and ␤-mercaptoethanol (25 M) (Invitrogen). Cells were collected by centrifugation at 100 ϫ g for 5 min and resuspended in fresh medium. The resulting single-cell suspension was seeded on 24-well plates coated with gelatin (Sigma) and poly-L-lysine (Sigma), and cells were grown at 37°C in saturation humidity with 5% CO 2 .Immunolabeling Experiments-Neuroblastoma cells were grown on glass coverslips coated with poly-L-lysine (Sigma) and exposed to vari-* This work was

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Synergistic interaction between adenosine A2A and glutamate mGlu5 receptors: Implications for striatal neuronal function

Ferré

Karcz-Kubicha²,

Hope³

et al. 2002

Proc. Natl. Acad. Sci. U.S.A.

342

286

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The physiological meaning of the coexpression of adenosine A2A receptors and group I metabotropic glutamate receptors in ␥-aminobutyric acid (GABA)ergic striatal neurons is intriguing. Here we provide in vitro and in vivo evidence for a synergism between adenosine and glutamate based on subtype 5 metabotropic glutamate (mGluR5) and adenosine A2A ( A denosine is a neuromodulator that plays a very important role in basal ganglia function (1). Its actions are mediated by specific G protein-coupled receptors, which are currently classified in A1, A2A, A2B, and A3 subtypes (2). Compared with the other adenosine receptor subtypes, A2A receptors (A2ARs) are concentrated in the striatum (1, 3), where they are expressed mostly by ␥-aminobutyric acid (GABA)ergic striatopallidal neurons (4). The recent ultrastructural analysis performed by Hettinger et al. (5) has demonstrated that, in the rat, A2ARs are localized mostly postsynaptically in the dendrites and dendritic spines of striatal GABAergic neurons. A2AR immunoreactivity was observed primarily at glutamatergic (asymmetric) synapses (5). Therefore, it was suggested that A2AR plays a prominent role in modulating glutamatergic input to striatal GABAergic neurons (5).Glutamate acts on both ionotropic and metabotropic G protein-coupled receptors (mGluRs). Molecular and pharmacological characterization studies have currently divided the mGluR family into three groups (I-III) (6). Group I mGluR includes mGluR1 and mGluR5, with the latter being highly expressed in the striatum, particularly in the striatal GABAergic efferent neurons (7). In the striatopallidal complex in primates, mGluR5 showed a localization very similar to that described for A2AR in rats. Thus, mGluR5 immunoreactivity was commonly found postsynaptically and perisynaptically to asymmetric synapses (8). These studies provide a morphological basis for the possible existence of functional interactions between striatal A2AR and mGluR5. In fact, in recent in vivo microdialysis experiments we found functional evidence for the possible existence of synergistic A2AR͞mGlluR5 interactions modulating the function of the GABAergic striatopallidal neurons originating in the nucleus accumbens (9). In the present study we provide evidence for the existence of A2AR͞mGluR5 heteromeric complexes in membrane preparations from human embryonic kidney (HEK)-293 cells transiently cotransfected with both receptors and from rat striatum. Furthermore, the same kind of functional A2AR͞mGluR5 synergistic interaction (induction of the immediate-early gene c-fos) could be demonstrated both in cotransfected cells and the rat striatum. These results suggest that A2AR͞mGluR5 synergistic interactions can have important implications for striatal neuronal function and dysfunction.

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Molecular Mechanisms and Therapeutical Implications of Intramembrane Receptor/Receptor Interactions among Heptahelical Receptors with Examples from the Striatopallidal GABA Neurons

et al. 2003

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Carme Lluı́s

Presynaptic Control of Striatal Glutamatergic Neurotransmission by Adenosine A₁–A_2AReceptor Heteromers

Coaggregation, Cointernalization, and Codesensitization of Adenosine A2A Receptors and Dopamine D2Receptors

Synergistic interaction between adenosine A2A and glutamate mGlu5 receptors: Implications for striatal neuronal function

Molecular Mechanisms and Therapeutical Implications of Intramembrane Receptor/Receptor Interactions among Heptahelical Receptors with Examples from the Striatopallidal GABA Neurons

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Carme Lluı́s

Presynaptic Control of Striatal Glutamatergic Neurotransmission by Adenosine A1–A2AReceptor Heteromers

Coaggregation, Cointernalization, and Codesensitization of Adenosine A2A Receptors and Dopamine D2Receptors

Synergistic interaction between adenosine A2A and glutamate mGlu5 receptors: Implications for striatal neuronal function

Molecular Mechanisms and Therapeutical Implications of Intramembrane Receptor/Receptor Interactions among Heptahelical Receptors with Examples from the Striatopallidal GABA Neurons

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Presynaptic Control of Striatal Glutamatergic Neurotransmission by Adenosine A₁–A_2AReceptor Heteromers