Femke S. den Boon scite author profile

The endocannabinoid (eCB) system is widely expressed throughout the central nervous system (CNS) and the functionality of type-1 cannabinoid receptors in neurons is well documented. In contrast, there is little knowledge about type-2 cannabinoid receptors (CB 2 Rs) in the CNS. Here, we show that CB 2 Rs are located intracellularly in layer II/III pyramidal cells of the rodent medial prefrontal cortex (mPFC) and that their activation results in IP 3 Rdependent opening of Ca 2+ -activated Cl − channels. To investigate the functional role of CB 2 R activation, we induced neuronal firing and observed a CB 2 R-mediated reduction in firing frequency. The description of this unique CB 2 R-mediated signaling pathway, controlling neuronal excitability, broadens our knowledge of the influence of the eCB system on brain function.calcium-activated chloride current | firing rate | whole-cell current | voltage clamp | intracellular calcium stores T he endocannabinoid (eCB) system is involved in many functions of the CNS, including executive functions associated with the prefrontal cortex, such as decision-making and working memory (1). The eCB system consists of at least two G proteincoupled receptors (GPCRs), type-1 cannabinoid receptor (CB 1 R) and type-2 cannabinoid receptor (CB 2 R), lipid endogenous ligands (e.g., anandamide and 2-arachidonoylglycerol), and various enzymes responsible for the synthesis and degradation of the endogenous ligands (2-6). CB 1 Rs are among the most abundantly expressed GPCRs in the rat brain and their role, predominantly as presynaptic receptors, in modulating neurotransmission is clearly established (5,7,8). In contrast with CB 1 R, the presence and function of CB 2 R in the brain has long been a matter of debate (9). CB 2 Rs are found primarily in the immune system and were initially regarded as the "peripheral" cannabinoid receptor (10,11). This generally accepted idea is challenged by the description of CNS CB 2 R gene expression in rats and wild-type mice (12-14) and the identification of functional CB 2 Rs on glial cells and neurons (15)(16)(17)(18). In addition to the current view that supports the expression of functional CB 2 Rs in neurons upon brain stress or damage (19), it has been reported that CB 2 Rs could play a role in general CNS physiology (20)(21)(22). These developments emphasize the importance of understanding how CB 2 R activation affects neuronal functioning. To demonstrate the presence of functional CB 2 Rs in the rodent medial prefrontal cortex (mPFC) and to elucidate their functional role, we used Western blotting, a radioactive binding assay, and electrophysiological techniques (whole-cell current and voltage clamp) on layer II/III pyramidal neurons. ResultsFunctional CB 2 Rs in the mPFC. The presence of CB 2 Rs in the rat mPFC was demonstrated by a Western blot performed on homogenated mPFC samples (Fig. 1A). A band of the expected molecular weight for CB 2 R was detected, which was absent when the primary antibody was incubated with immunizing peptide (Fig. 1A)....

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Novel indole and azaindole (pyrrolopyridine) cannabinoid (CB) receptor agonists: Design, synthesis, structure–activity relationships, physicochemical properties and biological activity

Blaazer

Lange

Neut

et al. 2011

European Journal of Medicinal Chemistry

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Effect of quinolinic acid-induced lesions of the subthalamic nucleus on performance on a progressive-ratio schedule of reinforcement: A quantitative analysis

Bezzina

Boon

Hampson

et al. 2008

Behavioural Brain Research

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The subthalamic nucleus (STN), a major relay in the indirect striatofugal pathway, plays an important role in extrapyramidal motor control. Recent evidence indicates that it may also be involved in regulating the incentive value of food reinforcers.ObjectiveTo examine the effect of lesions of the STN on performance on a progressive-ratio schedule using a quantitative model that dissociates effects of interventions on motor and motivational processes [Killeen PR. Mathematical principles of reinforcement. Behav Brain Sci 1994;17:105–72]. Rats with bilateral quinolinic acid-induced lesions of the STN (n = 14) or sham lesions (n = 14) were trained to press a lever for food-pellet reinforcers under a progressive-ratio schedule. In Phase 1 (90 sessions) the reinforcer was one pellet; in Phase 2 (30 sessions) it was two pellets; in Phase 3 (30 sessions) it was again one pellet.ResultsThe performance of both groups conformed to the model of progressive-ratio schedule performance. The motor parameter, δ, was significantly higher in the STN-lesioned than the sham-lesioned group, reflecting lower overall response rates in the lesioned group. The motivational parameter, a, was significantly higher in the STN-lesioned group than in the sham-lesioned group, consistent with enhanced reinforcer value in the STN-lesioned group compared to the sham-lesioned group. In both groups, a was sensitive to changes in reinforcer size, being significantly greater under the two-pellet condition (Phase 2) than under the one-pellet condition (Phases 1 and 3). The results suggest that destruction of the STN impairs response capacity and enhances the incentive value of food reinforcers.

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Femke S. den Boon

Excitability of prefrontal cortical pyramidal neurons is modulated by activation of intracellular type-2 cannabinoid receptors

Novel indole and azaindole (pyrrolopyridine) cannabinoid (CB) receptor agonists: Design, synthesis, structure–activity relationships, physicochemical properties and biological activity

Effect of quinolinic acid-induced lesions of the subthalamic nucleus on performance on a progressive-ratio schedule of reinforcement: A quantitative analysis

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