Adenosine Receptors Differentially Regulate the Expression of Regulators of G-Protein Signalling (RGS) 2, 3 and 4 in Astrocyte-Like Cells.

Till Nicolas Eusemann,Dietrich Van Calker,Knut Biber,Bernd Fiebich,Frank Willmroth,Wenhui Hu

doi:10.1371/journal.pone.0134934

Till Nicolas Eusemann, Dietrich Van Calker + Show 4 more

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https://doi.org/10.1371/journal.pone.0134934

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Abstract

The “regulators of g-protein signalling” (RGS) comprise a large family of proteins that limit by virtue of their GTPase accelerating protein domain the signal transduction of G-protein coupled receptors. RGS proteins have been implicated in various neuropsychiatric diseases such as schizophrenia, drug abuse, depression and anxiety and aggressive behaviour. Since conditions associated with a large increase of adenosine in the brain such as seizures or ischemia were reported to modify the expression of some RGS proteins we hypothesized that adenosine might regulate RGS expression in neural cells. We measured the expression of RGS-2,-3, and -4 in both transformed glia cells (human U373 MG astrocytoma cells) and in primary rat astrocyte cultures stimulated with adenosine agonists. Expression of RGS-2 mRNA as well as RGS2 protein was increased up to 30-fold by adenosine agonists in astrocytes. The order of potency of agonists and the blockade by the adenosine A2B-antagonist MRS1706 indicated that this effect was largely mediated by adenosine A2B receptors. However, a smaller effect was observed due to activation of adenosine A2A receptors. In astrocytoma cells adenosine agonists elicited an increase in RGS-2 expression solely mediated by A2B receptors. Expression of RGS-3 was inhibited by adenosine agonists in both astrocytoma cells and astrocytes. However while this effect was mediated by A2B receptors in astrocytoma cells it was mediated by A2A receptors in astrocytes as assessed by the order of potency of agonists and selective blockade by the specific antagonists MRS1706 and ZM241385 respectively. RGS-4 expression was inhibited in astrocytoma cells but enhanced in astrocytes by adenosine agonists.

Highlights

The “regulators of G-protein signalling” (RGS) comprise a large family of proteins that act as very effective “off-switches” of receptor-activated cellular signal transduction [1,2,3]
NECA is at least one order of magnitude more potent in eliciting the increase in RGS2 mRNA than the specific adenosine A1-agonist CPA and the A3-agonist IB-MECA, indicating that the effect is mediated by A2-receptors
Incubation with the non-selective adenosine receptor agonist NECA leads to up-regulation of expression of RGS2 mRNA and down-regulation of RGS3 in astrocytes (Fig 3A and 3B), similar to its effects in astrocytoma cells

Summary

Introduction

The “regulators of G-protein signalling” (RGS) comprise a large family of proteins that act as very effective “off-switches” of receptor-activated cellular signal transduction [1,2,3]. Adenosinergic Regulation of RGS2, -3 and -4 in Astrocyte-Like Cells considered as a candidate vulnerability marker for schizophrenia and may play a role in bipolar disorder and Alzheimer’s disease [4,5,6]. Another RGS protein, RGS2, appears to play an important role in depression and anxiety [7,8] and aggressive behaviour [9,10,11,12] and maybe genetically involved in the biological susceptibility to suicide [13]. RGS proteins are considered as potential new drug targets for neuropsychiatric diseases [24]

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