Propensity for social interaction predicts nicotine‐reinforced behaviors in outbred rats

Social and genetic factors can influence smoking behavior. Using olfactogustatory stimuli as the sensory cue for intravenous nicotine self‐administration (SA), we previously showed that social learning of nicotine contingent odor cue prevented rats from developing conditioned taste aversion and allowed them to instead establish stable nicotine SA. We hypothesized that genetic factors influenced socially acquired nicotine SA. A heterogeneous stock (HS; N/NIH) of outbred rats was trained to self‐administer nicotine using the social learning protocol. Both male and female HS rats acquired nicotine SA, but females self‐administered more nicotine than males. After extinction, the context previously paired with nicotine SA, in conjunction with socially transmitted drug cues, was sufficient to cause reinstatement of drug‐seeking behavior. Wide variation in both nicotine intake and reinstatement was observed. Using multiple regression analysis, we found that measures of social interaction were significant predictors of nicotine intake and reinstatement of drug seeking in both males and females. Furthermore, measures of depression were predictors of nicotine intake in both males and females, anxiety was a predictor only in males and response to novelty was a predictor only in females. In males, measures of both depression and anxiety predicted nicotine reinstatement. Together, these data supported the ideas that genetically determined propensities for emotional and social phenotypes are significant determinants for nicotine‐reinforced behavior, and that the HS rat is a suitable tool for dissecting genetic mechanisms that may underlie the interaction between social behavior, anxiety, depression and smoking .     

Variability in nicotine conditioned place preference and stress‐induced reinstatement in mice: Effects of sex,initial chamber preference,and guanfacine

Relapse to smoking occurs at higher rates in women compared with men, especially when triggered by stress. Studies suggest that sex‐specific interactions between nicotine reward and stress contribute to these sex differences. Accordingly, novel treatment options targeting stress pathways, such as guanfacine, an α2‐adrenergic receptor agonist, may provide sex‐sensitive therapeutic effects. Preclinical studies are critical for elucidating neurobiological mechanisms of stress‐induced relapse and potential therapies, but rodent models of nicotine addiction are often hindered by large behavioral variability. In this study, we used nicotine conditioned place preference to investigate stress‐induced reinstatement of nicotine preference in male and female mice, and the effects of guanfacine on this behavior. Our results showed that overall, nicotine induced significant place preference acquisition and swim stress‐induced reinstatement in both male and female mice, but with different nicotine dose‐response patterns. In addition, we explored the variability in nicotine‐dependent behaviors with median split analyses and found that initial chamber preference in each sex differentially accounted for variability in stress‐induced reinstatement. In groups that showed significant stress‐induced reinstatement, pretreatment with guanfacine attenuated this behavior. Finally, we evaluated neuronal activation by Arc immunoreactivity in the infralimbic cortex, prelimbic cortex, anterior insula, basolateral amygdala, lateral central amygdala and nucleus accumbens core and shell. Guanfacine induced sex‐dependent changes in Arc immunoreactivity in the infralimbic cortex and anterior insula. This study demonstrates sex‐dependent relationships between initial chamber preference and stress‐induced reinstatement of nicotine conditioned place preference, and the effects of guanfacine on both behavior and neurobiological mechanisms.     

Ghrelin Influences Novelty Seeking Behavior in Rodents and Men

Recent discoveries indicate an important role for ghrelin in drug and alcohol reward and an ability of ghrelin to regulate mesolimbic dopamine activity. The role of dopamine in novelty seeking, and the association between this trait and drug and alcohol abuse, led us to hypothesize that ghrelin may influence novelty seeking behavior. To test this possibility we applied several complementary rodent models of novelty seeking behavior, i.e. inescapable novelty-induced locomotor activity (NILA), novelty-induced place preference and novel object exploration, in rats subjected to acute ghrelin receptor (growth hormone secretagogue receptor; GHSR) stimulation or blockade. Furthermore we assessed the possible association between polymorphisms in the genes encoding ghrelin and GHSR and novelty seeking behavior in humans. The rodent studies indicate an important role for ghrelin in a wide range of novelty seeking behaviors. Ghrelin-injected rats exhibited a higher preference for a novel environment and increased novel object exploration. Conversely, those with GHSR blockade drastically reduced their preference for a novel environment and displayed decreased NILA. Importantly, the mesolimbic ventral tegmental area selective GHSR blockade was sufficient to reduce the NILA response indicating that the mesolimbic GHSRs might play an important role in the observed novelty responses. Moreover, in untreated animals, a striking positive correlation between NILA and sucrose reward behavior was detected. Two GHSR single nucleotide polymorphisms (SNPs), rs2948694 and rs495225, were significantly associated with the personality trait novelty seeking, as assessed using the Temperament and Character Inventory (TCI), in human subjects. This study provides the first evidence for a role of ghrelin in novelty seeking behavior in animals and humans, and also points to an association between food reward and novelty seeking in rodents.     

Novelty‐related behavior of young and adult dopamine transporter knockout rats: Implication for cognitive and emotional phenotypic patterns

Attention deficit hyperactivity disorder (ADHD) is a neuropsychiatric disorder characterized by a developmentally inappropriate, pervasive and persistent pattern of severe inattention, hyperactivity and impulsivity. Despite onset in early childhood, ADHD may continue into adulthood with substantial impairment in social, academic and occupational functioning. A new animal model of this disorder was developed in rats with genetic deletion of the dopamine transporter (DAT) gene (dopamine transporter knockout rats; DAT‐KO rats). We analyzed the behavior of DAT‐KO rats for a deeper phenotypical characterization of this model. We first tested rats of the 3 genotypes at different ages (preadolescent, adolescent and adult), in a novelty‐seeking test using a black/white box (Experiment 1). After that, we tested adult rats in a novelty‐preference test using a 3‐chamber apparatus with different shapes (Experiment 2). Experiment 1: as evidenced by analysis of time spent in the novel environment, adult DAT heterozygous (DAT‐HET) rats show an increased curiosity‐driven exploration compared with wild‐type (WT) controls while DAT‐KO rats did not recognize novelty. The locomotor activity data show a minimal difference between genotypes at adolescent age while the preadolescent and adult DAT‐KO rats have significantly increased activity rate compared with WT and DAT‐HET subjects. Experiment 2: in this case, due to more clearly evident spatial differences, time spent in novel environment was not significantly different among genotypes. During first 10 minutes, DAT‐KO rats showed a decreased hyperactivity, apparently related to curiosity and attention to the new environments. In conclusion, DAT‐KO rats may show some inattention while more novelty‐seeking traits appear in DAT‐HET rats.     

Cdh13 and AdipoQ gene knockout alter instrumental and Pavlovian drug conditioning

Genome‐wide association studies in humans have suggested that variants of the cadherin‐13 (CDH13) gene are associated with substance use disorder, subjective response to amphetamine, and attention deficit hyperactivity disorder. To examine the role of the Cdh13 and its peptide ligand adiponectin (AdipoQ) in addiction‐related behaviors, we assessed Cdh13 knockout (KO) rats and AdipoQ KO mice using intravenous cocaine self‐administration and conditioned place preference (CPP) paradigms. During intravenous cocaine self‐administration, male Cdh13 heterozygous (+/?) and KO (?/?) rats showed increased cue‐induced reinstatement compared with wild‐type (WT) rats when presented with a cocaine‐paired stimulus, whereas female Cdh13 rats showed no differences across genotype. Cdh13 ?/? rats showed higher responding for a saccharin reinforcer and learned the choice reaction time (RT) task more slowly than WTs. However, we found no differences between Cdh13 ?/? and +/+ rats in responding for sensory reinforcement, number of premature responses in the RT task, tendency to approach a Pavlovian food cue, CPP and locomotor activation to cocaine (10 or 20 mg/kg). In AdipoQ ?/? mice, there was a significant increase in CPP to methamphetamine (1 mg/kg) but not to a range of d‐amphetamine doses (0.5, 1, 2 and 4 mg/kg). Taken together, these data suggest that Cdh13 and AdipoQ regulate sensitivity to psychomotor stimulants and palatable rewards without producing major changes in other behaviors. In humans, these two genes may regulate sensitivity to natural and drug rewards, thus influencing susceptibility to the conditioned drug effects and relapse.     

MAO-B knockout mice exhibit deficient habituation of locomotor activity but normal nicotine intake

Low levels of monoamine oxidase-B (MAO-B) activity, such as those observed in smokers, are also associated with behavioral traits such as a heightened responsiveness to novelty. However, the exact mechanism by which low MAO-B activity influences smoking and heightened responsiveness to novelty is still poorly understood. We used MAO-B knockout (KO) mice to test the hypothesis that MAO-B concomitantly affects locomotor responses in a novel inescapable open field and nicotine intake. Male wild-type (WT) and MAO-B KO mice were placed in an inescapable open field and their horizontal locomotor activity was measured for 30 min per day for 5 days. MAO-B KO mice exhibited impaired within-session habituation of locomotor activity, as compared to WT mice. Separate groups of male WT and MAO-B KO mice were individually housed in their home cages with two water bottles. One of the bottles contained tap water and the other contained nicotine (0, 3.125, 6.25, 12.5, 25, 50 or 100 micro g/ml). The total amount of water and nicotine solution consumed was measured every three days for 16 days. MAO-B KO mice and WT mice consumed equal amounts of nicotine and exhibited comparable concentration-dependent nicotine preference and aversion over a period of 16 days. The data suggest that the absence of MAO-B impairs the ability of mice to habituate in the inescapable environment, but does not alter their nicotine intake.     

Inhibition of NAALADase by 2‐PMPA attenuates cocaine‐induced relapse in rats: a NAAG‐mGluR2/3‐mediated mechanism

Pharmacological activation of group II metabotropic glutamate receptors (mGluR2/3) inhibits cocaine self‐administration and reinstatement of drug‐seeking behavior, suggesting a possible use of mGluR2/3 agonists in the treatment of cocaine dependence. In this study, we investigated whether elevation of the endogenous mGluR2/3 ligand N‐acetyl‐aspartatylglutamate (NAAG) levels by the N‐acetylated‐alpha‐linked‐acidic dipeptidase inhibitor 2‐(phosphonomethyl)pentanedioic acid (2‐PMPA) attenuates cocaine self‐administration and cocaine‐induced reinstatement of drug seeking. N‐acetylated‐alpha‐linked‐acidic dipeptidase is a NAAG degradation enzyme that hydrolyzes NAAG to N‐acetylaspartate and glutamate. Systemic administration of 2‐PMPA (10‐100 mg/kg, i.p.) inhibited intravenous self‐administration maintained by low unit doses of cocaine and cocaine (but not sucrose)‐induced reinstatement of drug‐seeking behavior. Microinjections of 2‐PMPA (3–5 μg/side) or NAAG (3–5 μg/side) into the nucleus accumbens (NAc), but not into the dorsal striatum, also inhibited cocaine‐induced reinstatement, an effect that was blocked by intra‐NAc injection of LY341495, a selective mGluR2/3 antagonist. In vivo microdialysis demonstrated that 2‐PMPA (10‐100 mg/kg, i.p.) produced a dose‐dependent reduction in both extracellular dopamine (DA) and glutamate, an effect that was also blocked by LY341495. Finally, pre‐treatment with 2‐PMPA partially attenuated cocaine‐enhanced extracellular NAc DA, while completely blocking cocaine‐enhanced extracellular NAc glutamate in rats during reinstatement testing. Intra‐NAc perfusion of LY341495 blocked 2‐PMPA‐induced reductions in cocaine‐enhanced extracellular NAc glutamate, but not DA. These findings suggest that 2‐PMPA is effective in attenuating cocaine‐induced reinstatement of drug‐seeking behavior, likely by attenuating cocaine‐induced increases in NAc DA and glutamate via pre‐synaptic mGluR2/3s.     

QUANTITATIVE GENETICS OF FEMALE MATE PREFERENCES IN AN ANCESTRAL AND A NOVEL ENVIRONMENT

A female's mate preference is a potentially complex function relating variation in multiple male phenotypes with her probability of accepting individual males as a mate. Estimating the quantitative genetic basis preference functions within a population is empirically challenging yet key to understanding preference evolution. We employed a recently described approach that uses random‐coefficient mixed models in the analysis of function‐valued traits. Using a half‐sibling breeding design in a laboratory‐adapted Drosophila serrata population, we estimated the genetic (co)variance function of female preference for male sexual displays composed of nine contact pheromones. The breeding design was performed across two environments: the food to which the population was well adapted and a novel food that reduced average female productivity by 35%. Significant genetic variance in female preference was detected and the majority (64.2%) was attributable to a single genetic dimension (eigenfunction), suggesting that preferences for different pheromones are not genetically independent. The second eigenfunction, accounting for 24% of the total genetic variance, approached significance in a conservative test, suggesting the existence of a second, independent genetic dimension. There was no evidence that the genetic basis of female preference differed between the two environments, suggesting the absence of genotype‐by‐environment interactions and hence a lack of condition‐dependent preference expression.     

In search of predictive endophenotypes in addiction: insights from preclinical research

Drug addiction is widely recognized to afflict some but not all individuals by virtue of underlying risk markers and traits involving multifaceted interactions between polygenic and external factors. Remarkably, only a small proportion of individuals exposed to licit and illicit drugs develop compulsive drug‐seeking behavior, maintained in the face of adverse consequences and associated detrimental patterns of drug intake involving extended and repeated bouts of binge intoxication, withdrawal and relapse. As a consequence, research has increasingly endeavored to identify distinctive neurobehavioral mechanisms and endophenotypes that predispose individuals to compulsive drug use. However, research in active drug users is hampered by the difficulty in categorizing putatively causal behavioral traits prior to the initiation of drug use. By contrast, research in experimental animals is often hindered by the validity of approaches used to investigate the neural and psychological mechanisms of compulsive drug‐seeking habits in humans. Herein, we survey and discuss the principal findings emanating from preclinical animal research on addiction and highlight how specific behavioral endophenotypes of presumed genetic origin (e.g. trait anxiety, novelty preference and impulsivity) differentially contribute to compulsive forms of drug seeking and taking and, in particular, how these differentiate between different classes of stimulant and non‐stimulant drugs of abuse.     

Recognition memory in tree shrew (Tupaia belangeri) after repeated familiarization sessions

Recognition memories are formed during perceptual experience and allow subsequent recognition of previously encountered objects as well as their distinction from novel objects. As a consequence, novel objects are generally explored longer than familiar objects by many species. This novelty preference has been documented in rodents using the novel object recognition (NOR) test, as well is in primates including humans using preferential looking time paradigms. Here, we examine novelty preference using the NOR task in tree shrew, a small animal species that is considered to be an intermediary between rodents and primates. Our paradigm consisted of three phases: arena familiarization, object familiarization sessions with two identical objects in the arena and finally a test session following a 24-h retention period with a familiar and a novel object in the arena. We employed two different object familiarization durations: one and three sessions on consecutive days. After three object familiarization sessions, tree shrews exhibited robust preference for novel objects on the test day. This was accompanied by significant reduction in familiar object exploration time, occurring largely between the first and second day of object familiarization. By contrast, tree shrews did not show a significant preference for the novel object after a one-session object familiarization. Nonetheless, they spent significantly less time exploring the familiar object on the test day compared to the object familiarization day, indicating that they did maintain a memory trace for the familiar object. Our study revealed different time courses for familiar object habituation and emergence of novelty preference, suggesting that novelty preference is dependent on well-consolidated memory of the competing familiar object. Taken together, our results demonstrate robust novelty preference of tree shrews, in general similarity to previous findings in rodents and primates.     

Environmental enrichment decreases responding for visual novelty

Previous research has demonstrated that rats reared in an enriched condition (EC) with novel objects and social partners self-administer less amphetamine compared to rats raised in an isolated condition (IC). However, it is unclear if the enrichment-induced decrease in stimulant self-administration generalizes to non-drug rewards such as those provided by novel environmental stimuli. In the current study, EC, IC, and social condition (SC) rats were raised from 21 to 51 days of age before being tested in a two-lever operant conditioning chamber in which responding on one lever (active lever) resulted in illumination of a cue light. In Experiment 1, rats were initially assessed for baseline responding (no contingency) and then the contingent light was introduced. EC rats responded less than IC rats for the contingent light stimulus; however, EC rats also displayed a lower rate of baseline responding. In Experiment 2, rats were trained initially to lever press for a sucrose reward to decrease differences in baseline responding. While sucrose pretraining decreased baseline response differences between groups, EC rats still responded less for the contingent light stimulus than IC or SC rats. These results suggest that environmental enrichment decreases the incentive value of visual novelty.     

Trace amine-associated receptor 1 is a stereoselective binding site for compounds in the amphetamine class

The demonstrated ability of amphetamine to functionally activate the rat trace amine associated receptor 1 (rTAAR1) and the subsequent reports of amphetamine activation of TAAR1 in rhesus monkey mouse, human, and human-rat chimeric TAAR1-expressing cell lines has led to speculation as to the role of this receptor in the central nervous system (CNS) responses associated with amphetamine and its analogs. The agonist potencies of ten pairs of enantiomeric amphetamines, including several with known CNS activity, at primate TAAR1 stably expressed in RD-HGA16 cells, robustly indicate the S-configuration to be associated with higher potency. Moreover, the rank order of potency to activate TAAR1 parallels the stimulant action reported by humans for the specific amphetamines. Taken together, these data suggest that TAAR1 is a stereoselective binding site for amphetamine and that activation of TAAR1 is involved in the modulation of the stimulant properties of amphetamine and its congeners. In addition, the observed parallel between hTAAR1 and rhTAAR1 responses supports the rhesus monkey as a highly translational model for developing novel TAAR1-directed compounds as therapeutics for amphetamine-related addictions.     

Amphetamine-induced c-fos mRNA expression in the caudate-putamen and subthalamic nucleus: interactions between dose,environment, and neuronal phenotype

When administered in a novel environment relatively low doses of amphetamine induce c-fos mRNA in the subthalamic nucleus (STN) and in preproenkephalin mRNA-containing (ENK+) neurons in the caudate-putamen (CPu). When administered at home, however, low doses of amphetamine do not produce these effects. Environmental novelty also facilitates the behavioral effects of acute and repeated amphetamine, but this is dose-dependent. The purpose of the present experiment therefore was to determine if the effect of context on amphetamine-induced c-fos expression is also dose-dependent. It was found that: (i) No dose of amphetamine tested (1-10 mg/kg) induced c-fos in many ENK+ cells when given at home. (ii) When given in a novel environment low to moderate doses of amphetamine (1-5 mg/kg) induced c-fos in substantial numbers of ENK+ cells, but the highest dose examined (10 mg/kg) did not. (iii) Environmental novelty enhanced the ability of low to moderate doses of amphetamine to induce c-fos in the STN, but the highest dose of amphetamine induced robust c-fos mRNA expression in the STN regardless of context. The results do not support the idea that engaging ENK+ cells, at least as indicated by c-fos mRNA expression, is critical to produce robust behavioral sensitization, but do suggest a possible role for the STN. Furthermore, the results highlight the importance of drug-environment interactions on the neurobiological effects of drugs, and have implications for thinking about the circuits by which context modulates the acute and long-lasting consequences of amphetamine treatment.     

Involvement of A2A receptors in anxiolytic,locomotor and motivational properties of ethanol in mice

We have shown previously that mice lacking the adenosine A_2A receptor (A_2AR) generated on a CD1 background self‐administer more ethanol and exhibit hyposensitivity to acute ethanol. We aimed to investigate if the increased propensity of A_2A^?/? mice to consume ethanol is associated with an altered sensitivity in the motivational properties of ethanol in the conditioned place preference (CPP) and conditioned taste aversion (CTA) paradigms and with an altered development of sensitization to the locomotor effects of ethanol. We also tested their sensitivity to the anxiolytic effects of ethanol. Our results show that A_2A^?/? mice produced on a CD1 background displayed a reduced ethanol‐induced CPP and an increased sensitivity to the anxiolytic and locomotor‐stimulant effects of ethanol, but they did not show alteration in ethanol‐induced CTA and locomotor sensitization. Ethanol‐induced CPP, ethanol consumption and the locomotor effects of ethanol were also tested in A_2A^?/? mice produced on a C57BL/6J background. Our results emphasized the importance of the genetic background because alteration in ethanol consumption and preference, ethanol‐induced CPP and locomotor‐stimulant effects were not found in knockout mice produced on the alcohol‐preferring C57BL/6J genetic background. Finally, the A_2AR agonist, 2‐p‐(2‐carboxyethyl)‐phenylethylamino‐5′‐N‐ethylcarboxamidoadenosine hydrochloride (CGS 21680), reduced ethanol consumption and preference in C57BL/6J mice. In conclusion, A_2AR deficiency in mice generated on a CD1 background leads to high ethanol consumption that is associated with an increased sensitivity to the locomotor‐stimulant/anxiolytic effects of ethanol and a decrease in ethanol‐induced CPP.     

The Combined Effects of Ethanol and Amphetamine Sulfate on Performance of Human Subjects

The combined effects of ethanol and amphetamine on the performance of selected tests were evaluated. No differences were shown between the effects of ethanol-amphetamine and ethanol-lactose on the performance of balance, skipping, Minnesota manipulation, Purdue peg board, Maudsley Personality Inventory, pursuit rotor or digit span tests; but ethanol plus amphetamine produced less impairment of performance of coding, mental addition, and trail making tests than did ethanol plus a placebo. Ethanol increased the errors in performance of the Wonderlic Personnel Test, but the simultaneous administration of amphetamine did not reduce this effect. Conversely, amphetamine reduced the test-retest reliability of the Wonderlic Personnel Test, but alcohol appeared to counteract this effect of amphetamine. These experiments indicate that, when ethanol and amphetamine are used together, each drug modifies some of the effects produced by the other in a manner that cannot be predicted on the assumption that a depressant versus stimulant competition is operative.     

Association between Specific Diurnal Preference Questionnaire Items and PER3 VNTR Genotype

Although there are significant intra‐individual differences in self‐reported diurnal preference, as measured by validated questionnaires, the relative contribution of exogenous and endogenous factors to self‐reported diurnal preference largely remains to be investigated. The present study examined which items from the Horne‐Östberg (HÖ) questionnaire of diurnal preference were better at predicting genotypes in the variable number tandem polymorphism (VNTR) in the coding region of the gene PER3. This polymorphism has previously been reported to associate with diurnal preference, sleep parameters, and cognitive performance markers following sleep deprivation. Participants (n=240, selected from a previously studied population) had completed the HÖ questionnaire and provided a DNA sample, which was genotyped with regard to the PER3 VNTR. A multinomial logistic regression showed that four items significantly increased prediction accuracy between the two homozygotic genotypes, with homozygotes for the longer variant of the gene (PER3^5/5) associated with answers indicating a stronger morning preference than those chosen by homozygotes for the shorter variant (PER3^4/4). Only one item, the question of whether the respondent required an alarm clock, discriminated between all three genotypes. Moreover, when the items were divided into those with the strongest versus the weakest genetic association, there was a significant relationship between age and the questions not predicting genotype, but not between age and genotype‐predictive questions. This may explain previous findings regarding age‐related differences in self‐reported diurnal preference. These findings could facilitate the future development of diurnal preference scales especially tailored to the study of specific biological parameters.     

TIP39 modulates effects of novelty‐induced arousal on memory

Tuberoinfundibular peptide of 39 residues (TIP39) is a neuropeptide localized to neural circuits subserving emotional processing. Recent work showed that mice with null mutation for the gene coding TIP39 (TIP39‐KO mice) display increased susceptibility to environmental provocation. Based on this stressor‐dependent phenotype, the neuroanatomical distribution of TIP39, and knowledge that novelty‐induced arousal modulates memory functions via noradrenergic activation, we hypothesized that exposure to a novel environment differently affects memory performance of mice with or without TIP39 signaling, potentially by differences in sensitivity of the noradrenergic system. We tested TIP39‐KO mice and mice with null mutation of its receptor, the parathyroid hormone 2 receptor (PTH2‐R), in tasks of short‐term declarative and social memory (object recognition and social recognition tests, respectively), and of working memory (Y‐maze test) under conditions of novelty‐induced arousal or acclimation to the test conditions. Mice lacking TIP39 signaling showed memory impairment selectively under conditions of novelty‐induced arousal. Acute administration of a PTH2‐R antagonist in wild‐type mice had a similar effect. The restoration of memory functions in TIP39‐KO mice after injection of a β‐adrenoreceptor‐blocker, propranolol, suggested involvement of the noradrenergic system. Collectively, these results suggest that the TIP39/PTH2‐R system modulates the effects of novelty exposure on memory performance, potentially by acting on noradrenergic signaling.     

Identification of brain nuclei implicated in cocaine-primed reinstatement of conditioned place preference: a behaviour dissociable from sensitization

Relapse prevention represents the primary therapeutic challenge in the treatment of drug addiction. As with humans, drug-seeking behaviour can be precipitated in laboratory animals by exposure to a small dose of the drug (prime). The aim of this study was to identify brain nuclei implicated in the cocaine-primed reinstatement of a conditioned place preference (CPP). Thus, a group of mice were conditioned to cocaine, had this place preference extinguished and were then tested for primed reinstatement of the original place preference. There was no correlation between the extent of drug-seeking upon reinstatement and the extent of behavioural sensitization, the extent of original CPP or the extinction profile of mice, suggesting a dissociation of these components of addictive behaviour with a drug-primed reinstatement. Expression of the protein product of the neuronal activity marker c-fos was assessed in a number of brain regions of mice that exhibited reinstatement (R mice) versus those which did not (NR mice). Reinstatement generally conferred greater Fos expression in cortical and limbic structures previously implicated in drug-seeking behaviour, though a number of regions not typically associated with drug-seeking were also activated. In addition, positive correlations were found between neural activation of a number of brain regions and reinstatement behaviour. The most significant result was the activation of the lateral habenula and its positive correlation with reinstatement behaviour. The findings of this study question the relationship between primed reinstatement of a previously extinguished place preference for cocaine and behavioural sensitization. They also implicate activation patterns of discrete brain nuclei as differentiators between reinstating and non-reinstating mice.     

Amphetamine Sensitization Alters Reward Processing in the Human Striatum and Amygdala

Dysregulation of mesolimbic dopamine transmission is implicated in a number of psychiatric illnesses characterised by disruption of reward processing and goal-directed behaviour, including schizophrenia, drug addiction and impulse control disorders associated with chronic use of dopamine agonists. Amphetamine sensitization (AS) has been proposed to model the development of this aberrant dopamine signalling and the subsequent dysregulation of incentive motivational processes. However, in humans the effects of AS on the dopamine-sensitive neural circuitry associated with reward processing remains unclear. Here we describe the effects of acute amphetamine administration, following a sensitising dosage regime, on blood oxygen level dependent (BOLD) signal in dopaminoceptive brain regions during a rewarded gambling task performed by healthy volunteers. Using a randomised, double-blind, parallel-groups design, we found clear evidence for sensitization to the subjective effects of the drug, while rewarded reaction times were unchanged. Repeated amphetamine exposure was associated with reduced dorsal striatal BOLD signal during decision making, but enhanced ventromedial caudate activity during reward anticipation. The amygdala BOLD response to reward outcomes was blunted following repeated amphetamine exposure. Positive correlations between subjective sensitization and changes in anticipation- and outcome-related BOLD signal were seen for the caudate nucleus and amygdala, respectively. These data show for the first time in humans that AS changes the functional impact of acute stimulant exposure on the processing of reward-related information within dopaminoceptive regions. Our findings accord with pathophysiological models which implicate aberrant dopaminergic modulation of striatal and amygdala activity in psychosis and drug-related compulsive disorders.     

Relaxin‐3 receptor (Rxfp3) gene deletion reduces operant sucrose‐ but not alcohol‐responding in mice

The pervasive use of refined sugars in highly accessible, palatable foods and persistent exposure to reinforcing food‐associated cues has contributed to overconsumption of sugar‐rich diets and the current obesity epidemic in Western society. We have shown previously that brain relaxin‐3 mRNA levels positively correlate with sucrose and alcohol intake, and that central antagonism of relaxin‐3 receptors (RXFP3) attenuates alcohol self‐administration and alcohol‐seeking in rats, but food‐seeking behaviour and palatable food consumption in mice. To further examine the relationship between motivated appetitive behaviours and relaxin‐3/RXFP3 signalling, we investigated the effect of Rxfp3 gene deletion in C57BL/6J mice on sucrose and alcohol self‐administration and cue‐induced reinstatement (RNST) of sucrose‐ and alcohol‐seeking. Acquisition and maintenance of sucrose and alcohol self‐administration was assessed in male wild‐type (WT) and Rxfp3 knockout (KO) (C57BL/6J^{RXFP3TM1/DGen}) littermate mice using fixed ratio (FR) schedules of reinforcement. Mice were subsequently challenged with a progressive ratio (PR) test to measure motivation and, following extinction training, re‐exposed to reward‐associated cues to evaluate RNST of active lever‐responding. Wild‐type and Rxfp3 KO mice displayed similar acquisition of FR1 sucrose self‐administration, but Rxfp3 KO mice responded less when the instrumental requirement was increased to FR3. These mice also showed a lower breakpoint for sucrose and attenuated cue‐induced RNST of sucrose‐seeking. Notably, no marked genotype differences in alcohol‐responding were observed. In mice, endogenous relaxin‐3/RXFP3 signalling promotes self‐administration of sucrose under high response requirements and cue‐induced RNST of sucrose‐seeking, but does not apparently regulate motivation to consume alcohol or alcohol‐seeking behaviour.