Abstract
GPR3 is an orphan G protein-coupled receptor endowed with constitutive Gs signaling activity, which is expressed broadly in the central nervous system, with maximal expression in the habenula. We investigated the consequences of its genetic deletion in several behavioral paradigms and on neurotransmission. Compared to wild-type, hippocampal neurons from Gpr3−/− mice displayed lower basal intracellular cAMP levels, consistent with the strong constitutive activity of GPR3 in transiently transfected cells. Behavioral analyses revealed that Gpr3−/− mice exhibited a high level of avoidance of novel and unfamiliar environment, associated with increased stress reactivity in behavioral despair paradigms and aggressive behavior in the resident-intruder test. On the contrary, no deficit was found in the learning ability to avoid an aversive event in active avoidance task. The reduced ability of Gpr3 −/− mice to cope with stress was unrelated to dysfunction of the hypothalamic-pituitary-adrenal axis, with Gpr3−/− mice showing normal corticosterone production under basal or stressful conditions. In contrast, dramatic alterations of monoamine contents were found in hippocampus, hypothalamus and frontal cortex of Gpr3−/− mice. Our results establish a link between tonic stimulation of the cAMP signaling pathway by GPR3 and control of neurotransmission by monoamines throughout the forebrain. GPR3 qualifies as a new player in the modulation of behavioral responses to stress and constitutes a novel promising pharmacological target for treatment of emotional disorders.
Highlights
How signal transduction pathways control different aspects of behavior is a central issue in neurobiology
The absence of Gpr3 transcripts in Gpr32/2 mice was confirmed by reverse transcription (RT) polymerase chain reaction (PCR) on adult brains
Since dysregulation of the hypothalamic-pituitary adrenal (HPA) axis can lead to the onset of anxiety-like behavior and depression, we compared in Gpr32/2 and wild-type mice the levels of serum corticosterone, the major glucocorticoid end product in rodents, both under basal conditions and in response to the stress induced by the tail suspension test
Summary
How signal transduction pathways control different aspects of behavior is a central issue in neurobiology. The cAMP signaling pathway has been implicated in the action of chronically administrated antidepressant drugs [1]. Alterations in the cAMP pathways have been reported to produce major disturbances in emotional behaviors [2,3,4,5]. We examine the implication of GPR3, a novel potentially important regulator of intraneuronal cAMP, in the modulation of emotional behavior. GPR3 is an orphan G-protein-coupled receptor (GPCR) which, upon transfection in various mammalian cell lines, causes strong constitutive activation of adenylyl cyclase, in the absence of any added agonist [6]. Whether cAMP accumulation is the result of a true constitutive activity of the receptor or the consequence of the chronic stimulation by a ubiquitous unknown ligand, is still debated. Sphingosine 1-phoshate was proposed as an agonist of the rat GPR3 homologue [10,11] but this has not been confirmed yet
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