Does compulsion explain addiction?

One of the leading drug addiction theories states that habits and the underlying neural process of a ventral to dorsal striatal shift are the building blocks of compulsive drug-seeking behaviour and that compulsion is the maladaptive persistence of responding despite adverse consequences. Here we discuss that compulsive behaviour as defined primarily from the perspective of animal experimentation falls short of the clinical phenomena and their neurobiological correlates. Thus for the human condition, the concept of compulsive habbits should be critically addressed and potentially revised.

3-[3-(Phenalkylamino)cyclohexyl]phenols: Synthesis, biological activity, and in silico investigation of a naltrexone-derived novel class of MOR-antagonists.

The development of novel µ-opioid receptor (MOR) antagonists is one of the main objectives of drug discovery and development. Based on a simplified version of the morphinan scaffold, 3-[3-(phenalkylamino)cyclohexyl]phenol analogs were designed, synthesized, and evaluated for their MOR antagonist activity in vitro and in silico. At the highest concentrations, the compounds decreased by 52% to 75% DAMGO-induced GTPγS stimulation, suggesting that they acted as antagonists. Moreover, Extra-Precision Glide and Generalized-Born Surface Area experiments provided useful information on the nature of the ligand-receptor interactions, indicating a peculiar combination of C-1 stereochemistry and N-substitutions as feasibly essential for MOR-ligand complex stability. Interestingly, compound 9 showed the best experimental binding affinity, the highest antagonist activity, and the finest MOR-ligand complex stability. In silico experiments also revealed that the most promising stereoisomer (1R, 3R, 5S) 9 retained 1,3-cis configuration with phenol ring equatorial oriented. Further studies are needed to better characterize the pharmacodynamics and pharmacokinetic properties of these compounds.

Addiction theory matters-Why there is no dependence on caffeine or antidepressant medication.

With the development of the ICD-11, the debate about classifying certain psychoactive substances such as antidepressant medication and caffeine as drugs of dependence is ignited again. We argue that any coherent theory of addiction needs to identify the neurobiological processes elicited by a potentially addictive substance and to clearly define the clinical symptoms associated with these processes, which can then be used to guide diagnosis. Tolerance development and withdrawal symptoms can occur with any pharmacologically active agent, and their presence is not a sufficient criterion for the clinical diagnosis of an addictive disorder. Drug craving, drug seeking, and drug consumption in spite of harmful consequences are further key criteria for the diagnosis of substance dependence. Even though these symptoms have been associated with dopamine release in the ventral striatum, ventral striatal dopamine release alone is not a sufficient criterion of the addictive property of a drug. For example, common reinforcers such as food and sex increase dopamine transmission in the nucleus accumbens, but unlike in addictive substances, their effect is regulated by reward predictability and habituation. We emphasize the importance to integrate neurobiological as well as behavioral and clinical effects of a substance to assess its addictive liability. We provide a number of widely discussed examples and a list of key criteria as a conceptual guideline for addiction research and clinical practice.

Loren Parsons' contribution to addiction neurobiology.

Loren (Larry) H. Parsons passed away at the age of 51. In spite of his premature departure, Larry much contributed to the drug abuse field. Since his graduate studies for the Ph.D. in Chemistry in J.B. Justice lab, microdialysis is the tread that links Larry's research topics, namely, the role of dopamine (DA), serotonin (5-HT), gamma-aminobutyric acid (GABA), glutamate and endocannabinoids (eCBs) in drug reinforcement and dependence. Larry was the first to show that abstinence from chronic cocaine reduces extracellular DA in the NAc, consistent with the so called 'dopamine depletion hypothesis' of cocaine addiction. Another Larry's major contributions are the studies on 5-HT and 5-HT receptors' role in cocaine stimulant actions, which resulted in the identification of 5-HT1B receptors as a critical substrate of cocaine reinforcement. By applying mass spectrometry to eCBs analysis in brain dialysates, Larry's lab showed that ethanol, heroin, nicotine and cocaine differentially affect anandamide and 2-arachidonoylglicerol overflow in the NAc shell, a critical site of drugs of abuse DA stimulant actions. Larry also applied microdialysis to study GABA and glutamate's role in ethanol dependence and heroin reinforcement, providing in vivo evidence for a sensitization of corticotropin-releasing factor-dependent release of GABA in the central amygdala in withdrawal from chronic ethanol and for a reduction of GABA transmission in the ventral pallidum in heroin but not cocaine intravenous self-administration. Larry showed the wide possibilities of microdialysis as a general purpose methodology for monitoring neurotransmitters and neuromodulators in the brain extracellular compartment. From this viewpoint, he stands as the best advocate for microdialysis.

Strain dependence of adolescent Cannabis influence on heroin reward and mesolimbic dopamine transmission in adult Lewis and Fischer 344 rats.

Adolescent Cannabis exposure has been hypothesized to act as a gateway to opiate abuse. In order to investigate the role of genetic background in cannabinoid-opiate interactions, we studied the effect of Δ(9) -tetrahydrocannabinol (THC) exposure of adolescent Lewis and Fischer 344 rats on the responsiveness of accumbens shell and core dopamine (DA), as monitored by microdialysis, to THC and heroin at adulthood. Heroin reward and reinstatement by heroin priming were studied by conditioned place preference (CPP) and cognitive and emotional functions by object recognition, Y maze and elevated plus maze paradigms. THC stimulated shell DA in Lewis but not in Fischer 344 rats. Adolescent THC exposure potentiated DA stimulant effects of heroin in the shell and core of Lewis and only in the core of Fischer 344 rats. Control Lewis rats developed stronger CPP to heroin and resistance to extinction compared with Fischer 344 strain. In Lewis rats, THC exposure did not affect heroin CPP but potentiated the effect of heroin priming. In Fischer 344 rats, THC exposure increased heroin CPP and made it resistant to extinction. Lewis rats showed seeking reactions during extinction and hedonic reactions in response to heroin priming. Moreover, adolescent THC exposure affected emotional function only in Lewis rats. These observations suggest that long-term effects of Cannabis exposure on heroin addictive liability and emotionality are dependent on individual genetic background.

Lesion of medial prefrontal dopamine terminals abolishes habituation of accumbens shell dopamine responsiveness to taste stimuli.

Taste stimuli increase extracellular dopamine (DA) in the nucleus accumbens (NAc) and in the medial prefrontal cortex (mPFC). This effect shows single-trial habituation in NAc shell but not in core or in mPFC. Morphine sensitization abolishes habituation of DA responsiveness in NAc shell but induces it in mPFC. These observations support the hypothesis of an inhibitory influence of mPFC DA on NAc DA. To test this hypothesis, we used in vivo microdialysis to investigate the effect of mPFC 6-hydroxy-dopamine (6-OHDA) lesions on the NAc DA responsiveness to taste stimuli. 6-OHDA was infused bilaterally in the mPFC of rats implanted with guide cannulae. After 1 week, rats were implanted with an intraoral catheter, microdialysis probes were inserted into the guide cannulae, and dialysate DA was monitored in NAc shell/core after intraoral chocolate. 6-OHDA infusion reduced tissue DA in the mPFC by 75%. Tyrosine hydroxylase immunohistochemistry showed that lesions were confined to the mPFC. mPFC 6-OHDA lesion did not affect the NAc shell DA responsiveness to chocolate in naive rats but abolished habituation in rats pre-exposed to the taste. In the NAc core, mPFC lesion potentiated, delayed and prolonged the stimulatory DA response to taste but failed to affect DA in pre-exposed rats. Behavioural taste reactions and motor activity were not affected. The results indicate a top-down control of NAc DA by mPFC and a reciprocal relationship between DA transmission in these two areas. Moreover, habituation of DA responsiveness in the NAc shell is dependent upon an intact DA input to the mPFC.

Pharmacological characterization of novel synthetic opioids: Isotonitazene, metonitazene, and piperidylthiambutene as potent µ-opioid receptor agonists.

Recent trends of opioid abuse and related fatalities have highlighted the critical role of Novel Synthetic Opioids (NSOs). We studied the µ-opioid-like properties of isotonitazene (ITZ), metonitazene (MTZ), and piperidylthiambutene (PTB) using different approaches. In vitro studies showed that ITZ and MTZ displayed a higher potency in both rat membrane homogenates (EC50:0.99 and 19.1 nM, respectively) and CHO-MOR (EC50:0.71 and 10.0 nM, respectively) than [D-Ala2, NMe-Phe4, Gly-ol5]-enkephalin (DAMGO), with no difference in maximal efficacy (Emax) between DAMGO and NSOs. ITZ also has higher affinity (Ki:0.06 and 0.05 nM) at the MOR than DAMGO in both systems, whilst MTZ has higher affinity in CHO-MOR (Ki=0.23 nM) and similar affinity in rat cerebral cortex (Ki = 0.22 nM). PTB showed lower affinity and potency than DAMGO. In vivo, ITZ displayed higher analgesic potency than fentanyl and morphine (ED50:0.00156, 0.00578, 2.35 mg/kg iv, respectively); ITZ (0.01 mg/kg iv) and MTZ (0.03 mg/kg iv) reduced behavioral activity and increased dialysate dopamine (DA) in the NAc shell (max. about 200% and 170% over basal value, respectively. Notably, ITZ elicited an increase in DA comparable to that of higher dose of morphine (1 mg/kg iv), but higher than the same dose of fentanyl (0.01 mg/kg iv). In silico, induced fit docking (IFD) and metadynamic simulations (MTD) showed that binding modes and structural changes at the receptor, ligand stability, and the overall energy score of NSOs were consistent with the results of the biological assays.

Repeated exposure to JWH-018 induces adaptive changes in the mesolimbic and mesocortical dopaminergic pathways, glial cells alterations, and behavioural correlates.

BACKGROUND AND PURPOSE: Spice/K2 herbal mixtures, containing synthetic cannabinoids such as JWH-018, have been marketed as marijuana surrogates since 2004. JWH-018 has cannabinoid CB1 receptor-dependent reinforcing properties and acutely increases dopaminergic transmission selectively in the NAc shell. Here, we tested the hypothesis that repeated administration of JWH-018 (i) modulates behaviour, (ii) affects dopaminergic transmission and its responsiveness to motivational stimuli, and (iii) is associated with a neuroinflammatory phenotype. EXPERIMENTAL APPROACH: Rats were administered with JWH-018 once a day for 14 consecutive days. We then performed behavioural, electrophysiological, and neurochemical evaluation at multiple time points after drug discontinuation. KEY RESULTS: Repeated JWH-018 exposure (i) induced anxious and aversive behaviours, transitory attentional deficits, and withdrawal signs; (ii) decreased spontaneous activity and number of dopamine neurons in the VTA; and (iii) reduced stimulation of dopaminergic transmission in the NAc shell while potentiating that in the NAc core, in response to acute JWH-018 challenge. Moreover, (iv) we observed a decreased dopamine sensitivity in the NAc shell and core, but not in the mPFC, to a first chocolate exposure; conversely, after a second exposure, dialysate dopamine fully increased in the NAc shell and core but not in the mPFC. Finally, selected dopamine brain areas showed (v) astrogliosis (mPFC, NAc shell and core, VTA), microgliosis (NAc shell and core), and downregulation of CB1 receptors (mPFC, NAc shell and core). CONCLUSION AND IMPLICATIONS: Repeated exposure to JWH-018 may provide a useful model to clarify the detrimental effects of recurring use of Spice/K2 drugs.

Role of dopamine D(1) receptors in caffeine-mediated ERK phosphorylation in the rat brain.

The aim of this research was to study the role of dopamine D(1) receptors in caffeine elicited ERK phosphorylation in the prefrontal and other cortical (cingulate and motor) and subcortical (shell and core of the nucleus accumbens) regions. To this end, caffeine (3 and 10 mg/kg) was administered before phosphoERK immunohistochemistry. Caffeine dose-dependently increased the number of phosphoERK-positive neurons in the prefrontal and cingulate cortices but not in the secondary motor cortex and in the nucleus accumbens shell and core. The dopamine D(1) receptor antagonist, SCH 39166 (50 microg/kg), fully prevented phosphoERK activation by caffeine (10 mg/kg) in the superficial and deep layers of the prefrontal cortex but failed to prevent it in the cingulate cortex. Given that phosphoERK can be regarded as a postsynaptic marker of neuronal activation, the present results indicate that psychotropic properties of caffeine may result from the activation of prefrontal, via dopamine D(1) receptors, and cingulate cortices. Failure of caffeine to activate ERK in the nucleus accumbens further supports, indirectly, the observation that caffeine fails to activate dopamine transmission in this structure and is consistent with the tenet that caffeine lacks of true addictive properties.

Adolescent cannabis exposure increases heroin reinforcement in rats genetically vulnerable to addiction.

On the basis of epidemiological studies it has been proposed that cannabis use plays a causal role in the abuse of highly addictive drugs (Gateway Hypothesis). However, epidemiological studies are intrinsically unable to provide evidence of causality. Experimental studies can provide this evidence but they are feasible only in animal models and to date such evidence is lacking. In view of the importance of genetic factors in drug abuse, we investigated the influence of adolescent cannabis exposure on adult heroin reinforcement in two inbred rat strains differentially vulnerable to drugs of abuse, addiction prone Lewis (LEW) and addiction resistant Fischer 344 (F344) strains. Male LEW and F344 rats aged six weeks were exposed to increasing Δ9-tetrahydrocannabinol (THC) doses, twice a day for 3 days (2, 4, 8 mg/kg, i.p.). At adulthood they were allowed to self-administer heroin (0.025 mg/kg) under both Fixed- (FR) and Progressive- (PR) ratio schedules of responding. Following extinction, responding was reinstated by drug-cues and/or by heroin priming. THC pre-exposure increased responding for heroin and heroin intake under FR-3 and FR-5 as well as PR protocols and increased breaking point in PR schedules in LEW but not F344 rats. Drug cues and heroin priming reinstated responding in LEW and F344, but THC pre-exposure increased reinstatement by priming in LEW rats and by cues in F344 rats. These observations show that in genetically predisposed individuals, adolescent cannabis exposure increases heroin reinforcing properties, thus providing a mechanism for a causal role of adolescent cannabis use in heroin abuse.

Differential involvement of dopamine D1 receptors in morphine- and lithium-conditioned saccharin avoidance.

Conditioned saccharin avoidance (CSA) can be produced when either lithium chloride (LiCl) or a reinforcing drug, such as morphine, is administered following exposure to the taste of saccharin. In this study we investigated the involvement of dopamine (DA) transmission in the acquisition of morphine and LiCl-CSA. CSA was evaluated in a two-bottle choice paradigm with two conditioning pairings between saccharin and morphine or LiCl as unconditioned stimulus (US). Morphine hydrochloride (7.5 mg/kg s.c.) or LiCl (40 mg/kg i.p.), administered 45 and 120' respectively after saccharin-drinking session, induced strong CSA. The DA D(1) receptor antagonist, SCH 39166 (0.1 mg/kg s.c.), impaired morphine-CSA if administered 15' and, to a lesser extent, 30' but not 45' before the drug (i.e immediately after saccharin drinking). In contrast SCH 39166 reduced LiCl-CSA when administered 45' before the drug and even more so when administered 105' before LiCl i.e. immediately after saccharin drinking. Therefore SCH 39166 impaired morphine-CSA when given shortly before the drug, while it impaired LiCl-CSA when given shortly after saccharin. Raclopride, a specific antagonist of D(2) receptors, failed to affect LiCl- and morphine-CSA. These results are consistent with the idea that DA, acting on D(1) receptors, plays a differential role in morphine- and LiCl-CSA. In LiCl-CSA DA is necessary for the processing (consolidation) of the short-term memory trace of the saccharin taste to be associated with the lithium-induced aversive state, while in morphine CSA contributes to mediate the appetitive properties of the drug.

Behavioral sensitization to delta 9-tetrahydrocannabinol and cross-sensitization with morphine: differential changes in accumbal shell and core dopamine transmission.

Although cannabinoid-induced behavioral sensitization and cross-sensitization with opiates has been recently demonstrated, no information is available on the associated state and responsiveness of dopamine (DA) transmission in the nucleus accumbens (NAc) shell and core. In this study we investigate by means of dual probe microdialysis, the effect of exposure to a sensitizing regimen of Delta(9)-tetrahydrocannabinol (Delta(9)-THC) and morphine on the extracellular concentrations of DA under basal conditions and after challenge with Delta(9)-THC and morphine in the NAc shell and core. Different groups of male Sprague-Dawley rats were administered twice daily for 3 days with increasing doses of Delta(9)-THC (2, 4, and 8 mg/kg i.p.), morphine (10, 20, and 40 mg/kg s.c.), and vehicle. After 14-20 days from the last injection, the animals were implanted with two microdialysis probes, one aimed at the NAc shell and the other at the core. The following day animals pre-treated with Delta(9)-THC and vehicle controls were challenged with 150 microg/kg i.v. of Delta(9)-THC or 0.5 mg/kg i.v. of morphine. Animals pre-treated with morphine and their vehicle controls were administered with 150 microg/kg i.v. of Delta(9)-THC. Rats pre-exposed to Delta(9)-THC showed behavioral sensitization associated with a reduced stimulation of DA transmission in the NAc shell and an increased stimulation in the NAc core in response to Delta(9)-THC challenge. Pre-exposure to Delta(9)-THC induced behavioral sensitization to morphine also, but only a reduced stimulation of DA transmission in the NAc shell was observed. Animals pre-treated with morphine showed behavioral sensitization and differential changes of DA in the NAc shell and core in response to Delta(9)-THC challenge with a decreased response in the shell and an increased response in the core. The results show that Delta(9)-THC-induced behavioral sensitization is associated with changes in the responsiveness of DA transmission in the NAc subdivisions that are similar to those observed in the sensitization induced by other drugs of abuse.

Long-term increase in GAD67 mRNA expression in the central amygdala of rats sensitized by drugs and stress.

Repeated administration of addictive drugs and prolonged exposure to stressful stimuli induce sensitization to their behavioural stimulant properties. In this study, male Sprague-Dawley rats were repeatedly exposed to morphine [twice a day for 3 days at increasing doses, 10, 20, 40 mg/kg subcutaneously (s.c)], amphetamine (1 mg/kg s.c., once a day for 10 days), nicotine (0.4 mg/kg s.c., once a day for 5 days) and stress (food restriction for 7 days). After an interval of 3-30 days, depending on the pretreatment, rats were challenged with vehicle, with the same drug received as pretreatment (5 mg/kg of morphine, 0.5 mg/kg of amphetamine or 0.4 mg/kg of nicotine, respectively) or, in the case of food-restricted rats, with 0.5 mg/kg of amphetamine. Thereafter, changes in the expression of glutamic acid decarboxylase (GAD)67 mRNA were estimated by in situ hybridization in the central nucleus of the amygdala (CeA), basolateral amygdala (BLA), dorsolateral striatum (dLStr), nucleus accumbens shell (AcS) and core (AcC). All sensitizing pretreatments increased GAD67 mRNA in the CeA. Drug challenge did not further affect GAD67 mRNA in the CeA of saline, drug and stress pre-exposed rats. As to the other areas, no differences were observed in drug pre-exposed compared with saline pre-exposed and fed ad libitum rats, except for amphetamine. Amphetamine pre-exposure decreased GAD67 mRNA levels in the dLStr and the AcC and AcS, and this effect was reversed by amphetamine challenge. The results show that different drugs and stress models of behavioural sensitization have in common an increase of GA67 in the CeA but not in the BLA, and suggest the changes of GAD67 in the CeA are a substrate of the sensitized response to drug challenge.

Reward system and addiction: what dopamine does and doesn't do.

Addictive drugs share with palatable food the property of increasing extracellular dopamine (DA), preferentially in the nucleus accumbens shell rather than in the core. However, by acting directly on the brain, drugs bypass the adaptive mechanisms (habituation) that constrain the responsiveness of accumbens shell DA to food reward, abnormally facilitating Pavlovian incentive learning and promoting the acquisition of abnormal DA-releasing properties by drug conditioned stimuli. Thus, whereas Pavlovian food conditioned stimuli release core but not shell DA, drug conditioned stimuli do the opposite, releasing shell but not core DA. This process, which results in the acquisition of excessive incentive-motivational properties by drug conditioned stimuli, initiates the drug addiction process. Neuroadaptive processes related to the chronic influence of drugs on subcortical DA might secondarily impair the function of prefronto-striatal loops, resulting in impairments in impulse control and decision making that form the basis for the compulsive feature of drug seeking and its relapsing character.

Differential impact of pavlovian drug conditioned stimuli on in vivo dopamine transmission in the rat accumbens shell and core and in the prefrontal cortex.

RATIONALE: Conditioned stimuli (CSs) by pavlovian association with reinforcing drugs (US) are thought to play an important role in the acquisition, maintenance and relapse of drug dependence. OBJECTIVE: The aim of this study was to investigate by microdialysis the impact of pavlovian drug CSs on behaviour and on basal and drug-stimulated dopamine (DA) in three terminal DA areas: nucleus accumbens shell, core and prefrontal cortex (PFCX). METHODS: Conditioned rats were trained once a day for 3 days by presentation of Fonzies filled box (FFB, CS) for 10 min followed by administration of morphine (1 mg/kg), nicotine (0.4 mg/kg) or saline, respectively. Pseudo-conditioned rats were presented with the FFB 10 h after drug or saline administration. Rats were implanted with microdialysis probes in the shell, core and PFCX. The effect of stimuli conditioned with morphine and nicotine on DA and on DA response to drugs was studied. RESULTS: Drug CSs elicited incentive reactions and released DA in the shell and PFCX but not in the core. Pre-exposure to morphine CS potentiated DA release to morphine challenge in the shell but not in the core and PFCX. This effect was related to the challenge dose of morphine and was stimulus-specific since a food CS did not potentiate the shell DA response to morphine. Pre-exposure to nicotine CS potentiated DA release in the shell and PFCX. CONCLUSION: The results show that drug CSs stimulate DA release in the shell and medial PFCX and specifically potentiate the primary stimulant drug effects on DA transmission.

Differential neurochemical and behavioral adaptation to cocaine after response contingent and noncontingent exposure in the rat.

RATIONALE: In naive rats, passive administration of drugs of abuse preferentially increases extracellular dopamine (DA) in the nucleus accumbens (NAc) shell as compared to the core. Repeated exposure to the same drugs results in behavioral and biochemical sensitization characterized by stereotyped activity and reduction of the shell/core DA response ratio. OBJECTIVES: The aim of this work is to study the neurochemical and behavioral effects of response-contingent vs response-noncontingent drug administration in rats, who were bilaterally implanted with chronic intracerebral guide cannulae and trained to self-administer cocaine by nose poking in daily 1-h sessions for 3 weeks (5 days/week). Nose poking in the active hole by master rats resulted in intravenous injection of cocaine (0.25 mg/kg) in master rats and in rats yoked to them. Dialysate DA was monitored before, during, and for 30 min after cocaine availability on alternate days by inserting the probe into the NAc shell and core. Stereotyped and non-stereotyped behavior was recorded during the sessions. RESULTS: In master rats, dialysate DA increased preferentially in the NAc shell during cocaine self-administration throughout the 3 weeks of cocaine exposure. In yoked rats, DA increased preferentially in the shell but to a lesser extent than in master rats. With continued exposure to cocaine, the shell/core ratio of DA changes decreased progressively and, on the third week, was reversed so that DA increased more in the core than in the shell. Yoked rats showed a progressive and faster increase in stereotyped behaviors than master rats. CONCLUSIONS: Response-noncontingent cocaine administration is particularly prone, compared to response-contingent administration, to induce behavioral and biochemical sensitization.

Reciprocal effects of response contingent and noncontingent intravenous heroin on in vivo nucleus accumbens shell versus core dopamine in the rat: a repeated sampling microdialysis study.

RATIONALE: Although passive administration of heroin to drug-naive rats increases extracellular dopamine (DA) in the nucleus accumbens (NAc), its ability to do so also after active drug exposure (self-administration) is debated. OBJECTIVES: This study investigated by repeated microdialysis sampling the inter- and intrasession changes in the responsiveness of the NAc shell and core DA and the behavioral effects of active and passive heroin exposure in the intravenous self-administration/yoked paradigm. MATERIALS AND METHODS: Rats were implanted with jugular catheters and bilateral intracerebral chronic guide cannulae. Nose poking in the active hole by master rats resulted in heroin administration to the same subjects and to their yoked mates. Concentric microdialysis probes were inserted daily in the guide cannulae, and changes in dialysate DA in response to heroin exposure (0.05 mg/kg) were monitored in the same subject for 90 min for 4 weeks. Behavior associated with heroin exposure, distinguished into nonstereotyped and stereotyped, was also recorded. RESULTS: Dialysate DA increased preferentially in the shell of master rats from the first session (+112%) and throughout the 4 weeks of self-administration (+130-140%). In yoked rats, a preferential but lesser increase in DA in the shell was observed only on the first session (+60%), as the DA response in the NAc core increased progressively (+25-118%), so that within a week, the shell/core ratio was reversed, and this pattern was maintained for the following 2 weeks. Yoked rats showed a progressive and larger increase in stereotyped behaviors than master rats. CONCLUSIONS: Chronic heroin self-administration increases extracellular DA preferentially in the NAc shell. Response-noncontingent heroin administration is particularly prone, compared to response-contingent administration, to induce behavioral and biochemical sensitization.

Changes in Dopamine Transmission in the Nucleus Accumbens Shell and Core during Ethanol and Sucrose Self-Administration.

Ethanol, like other substances of abuse, preferentially increases dopamine (DA) transmission in the rat nucleus accumbens (NAc) following passive administration. It remains unclear, however, whether ethanol also increases NAc DA transmission following operant oral self-administration (SA). The NAc is made-up of a ventro-medial compartment, the shell and a dorso-lateral one, the core, where DA transmission responds differentially following exposure to drugs of abuse. Previous studies from our laboratory investigated changes in dialysate DA in the NAc shell and core of rats responding for sucrose pellets and for drugs of abuse. As a follow up to these studies, we recently investigated the changes in NAc shell and core DA transmission associated to oral SA of a 10% ethanol solution. For the purpose of comparison with literature studies utilizing sucrose + ethanol solutions, we also investigated the changes in dialysate DA associated to SA of 20% sucrose and 10% ethanol + 20% sucrose solutions. Rats were trained to acquire oral SA of the solutions under a Fixed Ratio 1 (FR1) schedule of nose-poking. After training, rats were monitored by microdialysis on three consecutive days under response contingent (active), reward omission (extinction trial) and response non-contingent (passive) presentation of ethanol, sucrose or ethanol + sucrose solutions. Active and passive ethanol administration produced a similar increase in dialysate DA in the two NAc subdivisions, while under extinction trial DA increased preferentially in the shell compared to the core. Conversely, under sucrose SA and extinction DA increased exclusively in the shell. These observations provide unequivocal evidence that oral SA of 10% ethanol increases dialysate DA in the NAc, and also suggest that stimuli conditioned to ethanol exposure contribute to the increase of dialysate DA observed in the NAc following ethanol SA. Comparison between the pattern of DA changes detected in the NAc subdivisions under sucrose and ethanol SA likewise suggests that the NAc shell and core DA play different roles in sucrose as compared to ethanol reinforcement.

Is there a Teratogenicity Risk Associated with Cannabis and Synthetic Cannabimimetics' ('Spice') Intake?

BACKGROUND: Substance use, including cannabis, has been documented amongst women both in the pre-conception period and during pregnancy, particularly during the 1st trimester, which is clearly the most critical period in the organogenesis. The recent emergence on the drug market of synthetic cannabimimetics/SC ('spice') may represent a new challenge for clinicians. OBJECTIVE: A literature overview on the teratogenicity profile of both cannabis and synthetic cannabimimetics was here carried out. METHOD: The PubMed database was searched in order to collect all relevant cases and data regarding the possible evidence of teratogenicity issues associated with cannabis and SC intake. RESULTS: The use of cannabis in pregnant women has been associated with a plethora of both obstetrical/ gestational complications and neurobehavioral/neurological effects on newborns. Conversely, only few and conflicting data are related to SC misuse issues. CONCLUSION: Although cannabis use may be considered a risk factor for the occurrence of pregnancyrelated morbidity issues, many studies relied on self-reports and showed inconsistent results when controlling for potential confounders, including tobacco use. Given the role of the endocannabinoid system in both pregnancy and delivery, SC potency at interacting with the endocannabinoid system may be a reason of concern. Clinicians should carefully assess each woman planning a pregnancy, or who is pregnant already, and who is at risk of persisting in her current cannabis and/or SC intake. A nonjudgmental approach, aiming at collecting both a history of drug/alcohol use and at providing information regarding the risks associated with cannabis/SC intake during pregnancy is here advised.

Widespread reduction of dopamine cell bodies and terminals in adult rats exposed to a low dose regimen of MDMA during adolescence.

Although MDMA (3,4-methylendioxymethamphetamine, ecstasy) neurotoxicity in serotonin neurons is largely recognized in a wide variety of species including man, neurotoxicity in dopamine (DA) neurons is thought to be species-specific. MDMA is mainly consumed by adolescents, often in conjunction with caffeine (Energy Drinks) and this association has been reported to exacerbate MDMA toxic effects. In order to model these aspects of MDMA use, vis-à-vis their impact on DA neurons, we investigated the effects of adolescent exposure to low doses of MDMA (5 mg/kg for 10 days), alone or in combination with caffeine (10 mg/kg) on neuronal and functional DA indices and on recognition memory in adult rats. MDMA reduced density of tyrosine hydroxylase (TH) positive neurons in the ventral tegmental area and in the substantia nigra pars compacta, and immunoreactivity of TH and DA transporter in the nucleus accumbens (NAc) shell and core, and caudate-putamen. This same treatment caused a reduction of basal dialysate DA in the NAc core. MDMA-pretreated rats also showed behavioral sensitization to a MDMA challenge at adulthood and potentiation of MDMA-induced increase of dialysate DA in the NAc core, but not in the NAc shell. In addition, MDMA-treated rats displayed a deficit in recognition memory. Caffeine co-administration did not affect the above outcomes. Our results show that adolescent exposure of rats to low doses of MDMA induces long-lasting and widespread reduction of DA neurons indicative of a neurotoxic effect on DA neurons and suggestive of a degeneration of the same neurons.