Nicotine consumption is regulated by a human polymorphism in dopamine neurons.

Smoking is the most important preventable cause of morbidity and mortality worldwide. Recent genome-wide association studies highlighted a human haplotype on chromosome 15 underlying the risk for tobacco dependence and lung cancer. Several polymorphisms in the CHRNA3-CHRNA5-CHRNB4 cluster coding for the nicotinic acetylcholine receptor (nAChR) α3, α5 and ß4 subunits were implicated. In mouse models, we define a key role in the control of sensitivity to nicotine for the α5 subunit in dopaminergic (DAergic) neurons of the ventral tegmental area (VTA). We first investigated the reinforcing effects of nicotine in drug-naive α5(-/-) mice using an acute intravenous nicotine self-administration task and ex vivo and in vivo electrophysiological recordings of nicotine-elicited DA cell activation. We designed lentiviral re-expression vectors to achieve targeted re-expression of wild-type or mutant α5 in the VTA, in general, or in DA neurons exclusively. Our results establish a crucial role for α5*-nAChRs in DAergic neurons. These receptors are key regulators that determine the minimum nicotine dose necessary for DA cell activation and thus nicotine reinforcement. Finally, we demonstrate that a single-nucleotide polymorphism, the non-synonymous α5 variant rs16969968, frequent in many human populations, exhibits a partial loss of function of the protein in vivo. This leads to increased nicotine consumption in the self-administration paradigm. We thus define a critical link between a human predisposition marker, its expression in DA neurons and nicotine intake.

Crucial role of alpha4 and alpha6 nicotinic acetylcholine receptor subunits from ventral tegmental area in systemic nicotine self-administration.

The identification of the molecular mechanisms involved in nicotine addiction and its cognitive consequences is a worldwide priority for public health. Novel in vivo paradigms were developed to match this aim. Although the beta2 subunit of the neuronal nicotinic acetylcholine receptor (nAChR) has been shown to play a crucial role in mediating the reinforcement properties of nicotine, little is known about the contribution of the different alpha subunit partners of beta2 (i.e., alpha4 and alpha6), the homo-pentameric alpha7, and the brain areas other than the ventral tegmental area (VTA) involved in nicotine reinforcement. In this study, nicotine (8.7-52.6 microg free base/kg/inf) self-administration was investigated with drug-naive mice deleted (KO) for the beta2, alpha4, alpha6 and alpha7 subunit genes, their wild-type (WT) controls, and KO mice in which the corresponding nAChR subunit was selectively re-expressed using a lentiviral vector (VEC mice). We show that WT mice, beta2-VEC mice with the beta2 subunit re-expressed exclusively in the VTA, alpha4-VEC mice with selective alpha4 re-expression in the VTA, alpha6-VEC mice with selective alpha6 re-expression in the VTA, and alpha7-KO mice promptly self-administer nicotine intravenously, whereas beta2-KO, beta2-VEC in the substantia nigra, alpha4-KO and alpha6-KO mice do not respond to nicotine. We thus define the necessary and sufficient role of alpha4beta2- and alpha6beta2-subunit containing nicotinic receptors (alpha4beta2*- and alpha6beta2*-nAChRs), but not alpha7*-nAChRs, present in cell bodies of the VTA, and their axons, for systemic nicotine reinforcement in drug-naive mice.

Unresponsiveness to cannabinoids and reduced addictive effects of opiates in CB1 receptor knockout mice.

The function of the central cannabinoid receptor (CB1) was investigated by invalidating its gene. Mutant mice did not respond to cannabinoid drugs, demonstrating the exclusive role of the CB1 receptor in mediating analgesia, reinforcement, hypothermia, hypolocomotion, and hypotension. The acute effects of opiates were unaffected, but the reinforcing properties of morphine and the severity of the withdrawal syndrome were strongly reduced. These observations suggest that the CB1 receptor is involved in the motivational properties of opiates and in the development of physical dependence and extend the concept of an interconnected role of CB1 and opiate receptors in the brain areas mediating addictive behavior.

Neurobiological mechanisms of cannabinoid addiction.

The endocannabinoid system is implicated in the regulation of a variety of physiological processes, among which conditioning, motivation, habit forming, memory, learning, and cognition play pivotal roles in drug reinforcement and reward. In this article we will give a synopsis of last developments in research on cannabinoid actions on brain reward circuits coming from behavioral, neurochemical and electrophysiological studies. Central cannabinoid-induced effects as measured by animal models of addiction, in vivo cerebral microdialysis, in vitro and in vivo electrophysiological recording techniques, will be reviewed. Brain sites that have been implicated in the mediation of addictive cannabinoid properties include primarily the ventral tegmental area, the nucleus accumbens, and the medial prefrontal cortex, although the amygdala, the substantia nigra, the globus pallidus, and the hippocampus have also been shown to be critical structures mediating motivational and reinforcing effects of cannabinoids. Putative neurobiological mechanisms underlying these effects will be delineated.

Cannabinoid self-administration in rats: sex differences and the influence of ovarian function.

BACKGROUND AND PURPOSE: We recently demonstrated the existence of strain differences in self-administration of the cannabinoid CB1 receptor agonist WIN55,212-2 (WIN) by Long Evans (LE) and Lister Hooded (LH) but not Sprague-Dawley (SD) male rats. This follow-up study is aimed at verifying whether sex and ovarian hormones might also be critical factors in the initiation, retention and extinction of WIN self-administration. EXPERIMENTAL APPROACH: LE, LH and SD male and female rats, the latter either intact or bilaterally ovariectomized (OVX), were trained to self-administer WIN (12.5 microg kg(-1) per infusion) under a FR1 reinforcement schedule, using lever-pressing. KEY RESULTS: Data showed that contrary to the findings in SD rats, LE and LH rats developed robust cannabinoid intake, with rates of responding for WIN being constantly higher in intact females than in males (+45 and +42% for LE and LH strains, respectively). In comparison with intact females, OVX females of both strains acquired self-administration at lower rates, displaying slower acquisition, lower drug intake (-42 and -52% for LE and LH, respectively) and longer extinction. CONCLUSIONS AND IMPLICATIONS: These findings provide the first evidence of significant sex differences in cannabinoid self-administration, females acquiring stable WIN intake at higher rates and more rapidly than males. Moreover, when compared to intact females, a lower percentage of LE and LH OVX rats acquired and maintained stable drug intake, suggesting that ovarian hormones might represent a critical factor in modulating the reinforcing effect of cannabinoids.

Methoxetamine affects brain processing involved in emotional response in rats.

BACKGROUND AND PURPOSE: Methoxetamine (MXE) is a novel psychoactive substance that is emerging on the Internet and induces dissociative effects and acute toxicity. Its pharmacological effects have not yet been adequately investigated. EXPERIMENTAL APPROACH: We examined a range of behavioural effects induced by acute administration of MXE (0.5-5 mg·kg-1 ; i.p.) in rats and whether it causes rapid neuroadaptive molecular changes. KEY RESULTS: MXE (0.5-5 mg·kg-1 ) affected motor activity in a dose- and time-dependent manner, inducing hypermotility and hypomotility at low and high doses respectively. At low and intermediate doses (0.5 and 1 mg·kg-1 ), MXE induced anxious and/or obsessive-compulsive traits (marble burying test), did not significantly increase sociability (social interaction test) or induce spatial anxiety (elevated plus maze test). At a high dose (5 mg·kg-1 ), MXE induced transient analgesia (tail-flick and hot-plate test), decreased social interaction time (social interaction test) and reduced immobility time while increasing swimming activity (forced swim test), suggesting an antidepressant effect. Acute MXE administration did not affect self-grooming behaviour at any dose tested. Immunohistochemical analysis showed that behaviourally active doses of MXE (1 and 5 mg·kg-1 ) increased phosphorylation of ribosomal protein S6 in the medial prefrontal cortex and hippocampus. CONCLUSIONS AND IMPLICATIONS: MXE differentially affected motor activity, behaviour and emotional states in rats, depending on the dose tested. As reported for ketamine, phosphorylation of the ribosomal protein S6 was increased in MXE-treated animals, thus providing a 'molecular snapshot' of rapid neuroadaptive molecular changes induced by behaviourally active doses of MXE.

Functional interaction between opioid and cannabinoid receptors in drug self-administration.

The present study was designed to explore the relationship between the cannabinoid and opioid receptors in animal models of opioid-induced reinforcement. The acute administration of SR141716A, a selective central cannabinoid CB1 receptor antagonist, blocked heroin self-administration in rats, as well as morphine-induced place preference and morphine self-administration in mice. Morphine-dependent animals injected with SR141716A exhibited a partial opiate-like withdrawal syndrome that had limited consequences on operant responses for food and induced place aversion. These effects were associated with morphine-induced changes in the expression of CB1 receptor mRNA in specific nuclei of the reward circuit, including dorsal caudate putamen, nucleus accumbens, and septum. Additionally, the opioid antagonist naloxone precipitated a mild cannabinoid-like withdrawal syndrome in cannabinoid-dependent rats and blocked cannabinoid self-administration in mice. Neither SR141716A nor naloxone produced any intrinsic effect on these behavioral models. The present results show the existence of a cross-interaction between opioid and cannabinoid systems in behavioral responses related to addiction and open new strategies for the treatment of opiate dependence.

Oxytocin concentration changes in different rat brain areas but not in plasma during aging.

The concentration of oxytocin was measured by radioimmunoassay in different brain areas, hypophysis, and plasma of male Wistar Kyoto rats during aging. Although no difference in the concentration of oxytocin in any of the above tissues among 2- and 6-month-old rats was found, in 12-month-old rats a 21% decrease was observed in both septum and hippocampus, but not in the hypothalamus, hypophysis, and plasma, when compared to values of 2- and 6-month-old rats. In 18-month-old rats, the decrease of septal and hippocampal oxytocin content was higher than that found in 12-month-old rats, but no change was found in the hypothalamus, neurohypophysis, and plasma. In 24-month-old rats, oxytocin content was similar to that found in 18-month-old rats in all tissues analyzed. The results suggest that aging induces an impairment of oxytocinergic transmission in the central nervous system but not in the neurohypophyseal system.

Brain proteolysis of oxytocin in vitro and in vivo changes during aging in male rats.

Oxytocin proteolysis was studied in vitro with purified synaptic membranes and in vivo after injection into the hippocampus of male Wistar Kyoto rats of different ages. When oxytocin was incubated in vitro with brain synaptic membranes obtained from 2-, 6-, and 12-month-old rats, no difference in the content of C-terminal and N-terminal fragments formed by membrane-bound aminopeptidase-like and endopeptidase-like enzymes, respectively, was found after high performance liquid chromatography separation and quantification by amino acid analysis. In contrast, the content of all fragments decreased by about 20%-25% when membranes obtained from 18- and 24-month-old rats were used. When [3H-Tyr2]oxytocin was injected in vivo in the hippocampus of 2-, 6-, 12-, and 18-month-old rats, no difference in the content of free [3H]-tyrosine and other [3H]-labelled fragments was found in the hippocampal peptidic extract after high performance liquid chromatography fractionation. However, the content of all radioactive fragments was about 50% lower in the extract from 24-month-old rats. The findings suggest that oxytocin proteolysis in brain decreases during aging. Such a decrease might counterbalance the impairment of central oxytocinergic transmission caused by the age-related decrease of oxytocin content in brain.

Astroglial in vivo response to cocaine in mouse dentate gyrus: a quantitative and qualitative analysis by confocal microscopy.

Astrocytes have been proved to play a critical role in neuromodulation, neuroprotection, pH maintenance, axon guidance control during development, homeostasis preservation and blood brain barrier maintenance in the CNS (Kimmelberg and Norenberg, 1989). Quantitative changes in the expression of glial fibrillary acidic protein (GFAP), a cytoskeletal intermediate filament protein exclusively expressed in astrocytes (Bignami et al, 1972), have been observed after administration of alcohol (Framke, 1995), morphine (Beitner-Johnson et al., 1993), amphetamine and its derivates (Aguirre et al., 1999), cannabinoids (Suarez et al., 2000), nicotine (Janson and Moller, 1993), caffeine (Marret et al., 1993) and prenatal exposure to cocaine (Clarke et al., 1996; Nassogne et al., 1998). However, the general astrocytic response to drugs of abuse is still far from being defined. In the present study we examined the in vivo astroglial response to cocaine in mouse dentate gyrus, the hippocampus being a common target of neurotoxic agents (Walsh and Emerich, 1988) which has a prominent effect on learning and memory processes (Eichenbaum et al., 1992). Quantitative changes in immunoreactivity of GFAP were investigated 24 h after acute and repeated daily administration of intraperitoneal cocaine (20 mg/kg). Drug-induced morphological alterations and spatial distribution of astrocytes were evaluated by means of confocal microscope. The results show that, compared to control animals, GFAP expression is two-fold enhanced after a single cocaine injection, still significantly higher after seven consecutive daily administrations, but not statistically different after prolonged (14 days) drug treatment. Moreover, morphological and morphometric analyses reveal significant modifications in astrocytic numbers, cell size and shape complexity. These data demonstrate that in mouse dentate gyrus, cocaine exposure differently affects the expression of GFAP and induces strong changes in astrocytes proliferation rate and cell morphology. Taken together, our findings provide the first in vivo quantitative and qualitative evaluation of astrocytic response to several regimens of cocaine in adult animals brain.

Self-administration of the cannabinoid receptor agonist WIN 55,212-2 in drug-naive mice.

Marijuana is one of the most widely used illicit recreational drugs. However, contrary to the majority of drugs abused by humans, there is a general opinion that rewarding effects are not manifested by animals. We studied a synthetic cannabinoid agonist WIN 55,212-2 using an intravenous self-administration model in drug-naive mice. The results of this study show that WIN 55,212-2 was intravenously self-administered by mice in a concentration-dependent manner according to a bell-shaped curve. Thus, self-administration of WIN 55,212-2 significantly increased, with respect to the vehicle self-administration control group, at concentrations of 0.5 and 0.1 mg/kg per injection. However, at WIN 55,212-2 concentration of 0.5 mg/kg per injection, self-administration significantly decreased. The results obtained show how WIN 55,212-2 is able to elicit both rewarding and aversive effects depending on the concentration used. Pretreatment of mice with the cannabinoid CB1 receptor antagonist SR 141716A (0.25 mg/kg, i.p.) completely prevented WIN 55,212-2 (0.1 mg/kg per injection) self-administration, indicating that WIN 55,212-2 rewarding effects are specifically mediated by cannabinoid CB1 receptors.

Lack of copulatory behaviour in male castrated rats after p-chlorophenylalanine.

1 The effect of p-chlorophenylalanine (PCPA) on the copulatory behaviour of normal and castrated male rats with females in oestrus was studied.2 Castration 2 months before the experiment completely prevented the increased copulatory behaviour produced by PCPA in normal rats.3 The administration of testosterone restored the copulatory behaviour in the castrated rats indicating that testosterone is essential for this behaviour.

Rewarding properties of gamma-hydroxybutyric acid: an evaluation through place preference paradigm.

Gamma-hydroxybutyric acid (GHB), a putative neurotransmitter or neuromodulator found in the mammalian brain, has been successfully used in clinical practice to alleviate both alcohol and opiate withdrawal symptoms. In the present study we used a conditioned place preference (CPP) paradigm to investigate whether GHB possesses rewarding properties in rats. In order to exclude possible artifacts due to experimental design, we evaluated the possibility of a shift in preference when rats are conditioned either on their non-preferred side or on a randomly assigned side of conditioning. In both experiments GHB was seen to induce CPP. Although to date the physiological role of this compound still remains unclear, there is no doubt that GHB, further to its proven effect on alcohol and opiates, possesses rewarding properties of its own. The abuse liability afforded by this drug suggests the use of particular caution in handling GHB as a clinically useful drug.

Intravenous self-administration of the cannabinoid CB1 receptor agonist WIN 55,212-2 in rats.

RATIONALE: Delta9-tetrahydrocannabinol (Delta9-THC), the main psychoactive ingredient of marijuana, as well as synthetic cannabinoid (CB1) receptor agonists, has led to negative or equivocal results when tested with the intravenous self-administration procedure, the best validated behavioural model for evaluating abuse liability of drugs in experimental animals. We recently reported, however, that the synthetic CB1 receptor agonist WIN 55,212-2 is intravenously self-administered by drug-naive mice and that its self-administration is blocked by the cannabinoid CB1 receptor antagonist SR 141716A. OBJECTIVE: To assess a reliable model of cannabinoid intravenous self-administration in rats. Long Evans male rats were allowed the opportunity to self-administer WIN 55,212-2 at doses ranging from 6.25 to 50 microg/kg per injection, under a fixed-ratio 1 (FR1) schedule of reinforcement and nose-pokes as the operant responses. The effect of either a change in the unit drug dose available or a pretreatment with the specific CB1 receptor antagonist SR 141716A were then investigated (maintenance phase). Finally, the extinction of the self-administration behaviour was evaluated. RESULTS: Response rate depended on the drug dose available, with maximum rates occurring at 12.5 microg/kg per injection. Response rate increased following pretreatment with the specific CB1 receptor antagonist, SR 141716A. Moreover, operant behaviour rapidly extinguished following both the substitution of saline or vehicle for cannabinoid and the disconnection of the drug delivery pumps. CONCLUSION: Rats will intravenously self-administer the synthetic CB1 receptor agonist WIN 55,212-2 under specific experimental conditions, thus allowing further investigation of the neurobiological mechanisms underlying cannabinoid-taking behaviour.

Voraciousness induced in cats by benzodiazepines.

Different benzodiazepines, when administered to fasting cats, increased both the total amount of food eaten and also the rate at which food was ingested. Moreover, when injected to foodsatiated cats, these compounds made them resume eating voraciously. Pentobarbital also stimulated food intake, but was much less potent than the benzodiazepines tested.

Effects of the calcium antagonist isradipine on cocaine intravenous self-administration in rats.

The effect of isradipine, a dihydropyridine calcium antagonist, on cocaine intravenous self-administration in rats was investigated. Administration of (+/-)isradipine (1.25-5 mg/kg SC) 2 h before the cocaine self-administration session induced a significant and dose-dependent increase in the number of cocaine injections with respect to basal values. This effect was stereospecific, with the (+) form of isradipine being active, while the (-) stereoisomer was ineffective. These results suggest that isradipine antagonizes the rewarding properties of cocaine, possibly by inhibiting those dopaminergic systems related to reward mechanisms. These results further indicate a possible use of isradipine, or structurally similar compounds, in the treatment of cocaine related disorders.

Dopamine D1 and opioid receptor binding changes in the limbic system of sleep deprived rats.

Sleep deprivation induced by the platform technique is considered to be a heavy stressful situation in rats. At the end of the sleep deprivation period (72 h) the rat displayed particular behavior characterized by wakefulness, a high degree of motor and exploratory activity, increased alertness and reactivity to environmental stimuli. Our previous results indicated that this behavior was potently antagonized by the administration of the D1 selective antagonist SCH 23390 and by the opioid antagonist naloxone. In this paper we show that concomitantly to this behavior, an increased number of D1 receptors associated with an increased dopamine-stimulated adenylate cyclase activity is present in the limbic system but not in the striatum of these animals. On the contrary, a decreased Bmax of mu and delta opioid receptors was found in the same brain area. These data suggest an active role of limbic dopamine and opioid systems in the generation of arousal and insomnia related to sleep deprivation-induced stress.

Baclofen antagonises intravenous self-administration of gamma-hydroxybutyric acid in mice.

gamma-Hydroxybutyric acid (GHB) is a widely used recreational drug known to exert positive reinforcing effects in animals and humans. The GABA(B) receptor agonist baclofen has been proved to possess antimotivational effect and to inhibit alcohol, cocaine, heroin and nicotine intake. In the present study we evaluated the effect of baclofen on i.v. self-administration of GHB in drug-naive mice under a fixed-ratio (FR-1) schedule of reinforcement and nose-poking-like response as operandum. Results show that baclofen was able to completely prevent GHB seeking behaviour, decreasing the rate of responding to basal values, without showing any reinforcing properties when made contingent on nose-poking response. Our findings demonstrate that baclofen antagonises GHB i.v. self-administration, supporting an important role for the GABA(B) receptor in reward-related mechanisms underlying addictive behaviour.

Existence of different forms of adrenocorticotropin in rat hypothalamus.

Adrenocorticotropin (ACTH)-like immunoreactivity and bioactivity were extracted from rat hypothalamus and fractionated by high pressure liquid chromatography. Analysis of the fractions either by radioimmunoassay or bioassay (corticosteroid production from rat adrenal cells) revealed several peaks of immunoreactivity and bioactivity. Only 20-25% of total ACTH-like immunoreactivity and bioactivity eluted with the same retention time as authentic ACTH 1-39. The results suggest that different forms of ACTH exist in rat hypothalamus.

CB1 cannabinoid receptor agonist WIN 55,212-2 decreases intravenous cocaine self-administration in rats.

The effect of the CB1 cannabinoid receptor agonist WIN 55,212-2 on intravenous cocaine self-administration (IVSA) in rats was evaluated. Male Long Evans rats were implanted with silastic catheters through the external jugular vein. The IVSA was conducted in 3-h daily sessions with a fixed ratio (FR1) schedule: the experimental apparatus had a nose-poking response-like operandum. Intravenous pre-treatment with WIN 55,212-2 (0.25, 0.5 and 1 mg/kg) to rats self-administering cocaine (0.25 or 0.5 mg/kg/inj) at stable baseline, reduces cocaine intake in a dose-dependent manner. The CB1 receptor antagonist SR 141716A (3 mg/kg i.p.) completely reversed the WIN 55,212-2-induced decrease of cocaine intake. However, pre-treatment of SR 141716A alone (up to dose of 9 mg/kg i.p.) was unable to modify cocaine IVSA. These results indicate that stimulation of CB1 cannabinoid receptors activates rewarding mechanisms which produce reinforcing effects additional to those induced by cocaine.