Raquel Linge scite author profile

Cannabidiol (CBD), the main non-psychotomimetic component of marihuana, exhibits anxiolytic-like properties in many behavioural tests, although its potential for treating major depression has been poorly explored. Moreover, the mechanism of action of CBD remains unclear. Herein, we have evaluated the effects of CBD following acute and chronic administration in the olfactory bulbectomy mouse model of depression (OBX), and investigated the underlying mechanism. For this purpose, we conducted behavioural (open field and sucrose preference tests) and neurochemical (microdialysis and autoradiography of 5-HT1A receptor functionality) studies following treatment with CBD. We also assayed the pharmacological antagonism of the effects of CBD to dissect out the mechanism of action. Our results demonstrate that CBD exerts fast and maintained antidepressant-like effects as evidenced by the reversal of the OBX-induced hyperactivity and anhedonia. In vivo microdialysis revealed that the administration of CBD significantly enhanced serotonin and glutamate levels in vmPFCx in a different manner depending on the emotional state and the duration of the treatment. The potentiating effect upon neurotransmitters levels occurring immediately after the first injection of CBD might underlie the fast antidepressant-like actions in OBX mice. Both antidepressant-like effect and enhanced cortical 5-HT/glutamate neurotransmission induced by CBD were prevented by 5-HT1A receptor blockade. Moreover, adaptive changes in pre- and post-synaptic 5-HT1A receptor functionality were also found after chronic CBD. In conclusion, our findings indicate that CBD could represent a novel fast antidepressant drug, via enhancing both serotonergic and glutamate cortical signalling through a 5-HT1A receptor-dependent mechanism.

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Neural Plasticity and Proliferation in the Generation of Antidepressant Effects: Hippocampal Implication

Pilar-Cuéllar

Vidal

Díaz

et al. 2013

Neural Plasticity

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It is widely accepted that changes underlying depression and antidepressant-like effects involve not only alterations in the levels of neurotransmitters as monoamines and their receptors in the brain, but also structural and functional changes far beyond. During the last two decades, emerging theories are providing new explanations about the neurobiology of depression and the mechanism of action of antidepressant strategies based on cellular changes at the CNS level. The neurotrophic/plasticity hypothesis of depression, proposed more than a decade ago, is now supported by multiple basic and clinical studies focused on the role of intracellular-signalling cascades that govern neural proliferation and plasticity. Herein, we review the state-of-the-art of the changes in these signalling pathways which appear to underlie both depressive disorders and antidepressant actions. We will especially focus on the hippocampal cellularity and plasticity modulation by serotonin, trophic factors as brain-derived neurotrophic factor (BDNF), and vascular endothelial growth factor (VEGF) through intracellular signalling pathways—cAMP, Wnt/β-catenin, and mTOR. Connecting the classic monoaminergic hypothesis with proliferation/neuroplasticity-related evidence is an appealing and comprehensive attempt for improving our knowledge about the neurobiological events leading to depression and associated to antidepressant therapies.

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Behavioral, neurochemical and molecular changes after acute deep brain stimulation of the infralimbic prefrontal cortex

et al. 2016

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Social isolation differentially affects anxiety and depressive-like responses of bulbectomized mice

Linge

Pazos

Díaz

2013

Behavioural Brain Research

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New Strategies in the Development of Antidepressants: Towards the Modulation of Neuroplasticity Pathways

Vidal¹,

Pilar-Cuéllar²,

Anjos³

et al. 2011

Current Pharmaceutical Design

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Serotonin 5-HT<sub>4</sub> Receptors: A New Strategy for Developing Fast Acting Antidepressants?

Vidal¹,

Castro²,

Pilar-Cuéllar³

et al. 2014

CPD

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Enhanced Stress Response in 5-HT_1AR Overexpressing Mice: Altered HPA Function and Hippocampal Long-Term Potentiation

Pilar-Cuéllar

Vidal

Díaz

et al. 2017

ACS Chem. Neurosci.

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Postsynaptic 5-HT receptors (5-HTR) play an important role in anxiety and stress, although their contribution is still controversial. Previous studies report that mice overexpressing postsynaptic 5-HTRs show no changes in basal anxiety, though the influence of stress conditions has not been addressed yet. In this study, we used this animal model to evaluate the role of 5-HTRs in anxiety response after pre-exposure to an acute stressor. Under basal conditions, 5-HTR overexpressing animals presented high corticosterone levels and a lower mineralocorticoid/glucocorticoid receptor ratio. After pre-exposure to a single stressor, they showed a high anxiety-like response, associated with a blunted increase in corticosterone levels and higher c-Fos activation in the prefrontal cortex. Moreover, these mice also presented a lack of downregulation of hippocampal long-term potentiation after stress exposure. Therefore, higher postsynaptic 5-HTR activation might predispose to a high anxious phenotype and an impaired stress coping behavior.

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Autoradiographic Visualization of G Protein-Coupled Receptors in Brain

Vidal

Linge

Castillo

et al. 2016

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Raquel Linge

Cannabidiol induces rapid-acting antidepressant-like effects and enhances cortical 5-HT/glutamate neurotransmission: role of 5-HT1A receptors

Neural Plasticity and Proliferation in the Generation of Antidepressant Effects: Hippocampal Implication

Behavioral, neurochemical and molecular changes after acute deep brain stimulation of the infralimbic prefrontal cortex

Social isolation differentially affects anxiety and depressive-like responses of bulbectomized mice

New Strategies in the Development of Antidepressants: Towards the Modulation of Neuroplasticity Pathways

Serotonin 5-HT<sub>4</sub> Receptors: A New Strategy for Developing Fast Acting Antidepressants?

Enhanced Stress Response in 5-HT_1AR Overexpressing Mice: Altered HPA Function and Hippocampal Long-Term Potentiation

Autoradiographic Visualization of G Protein-Coupled Receptors in Brain

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Raquel Linge

Cannabidiol induces rapid-acting antidepressant-like effects and enhances cortical 5-HT/glutamate neurotransmission: role of 5-HT1A receptors

Neural Plasticity and Proliferation in the Generation of Antidepressant Effects: Hippocampal Implication

Behavioral, neurochemical and molecular changes after acute deep brain stimulation of the infralimbic prefrontal cortex

Social isolation differentially affects anxiety and depressive-like responses of bulbectomized mice

New Strategies in the Development of Antidepressants: Towards the Modulation of Neuroplasticity Pathways

Serotonin 5-HT<sub>4</sub> Receptors: A New Strategy for Developing Fast Acting Antidepressants?

Enhanced Stress Response in 5-HT1AR Overexpressing Mice: Altered HPA Function and Hippocampal Long-Term Potentiation

Autoradiographic Visualization of G Protein-Coupled Receptors in Brain

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Product

Resources

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Enhanced Stress Response in 5-HT_1AR Overexpressing Mice: Altered HPA Function and Hippocampal Long-Term Potentiation