Virginie Lardeux

Environmental Enrichment During Early Stages of Life Reduces the Behavioral, Neurochemical, and Molecular Effects of Cocaine

It is known that negative environmental conditions increase vulnerability to drugs, whereas little is known on whether positive environmental conditions such as enriched environments (EE) have protective effects against addiction. We have previously found that EE consisting of bigger cages containing several toys that were changed once per week reduce cocaine-induced increases in locomotor activity. Here, we also show that the rewarding effects of cocaine are blunted in mice reared from weaning to adulthood in EE compared to mice reared in standard environments (SE). In addition, although both EE and SE mice develop behavioral sensitization to cocaine, EE mice show less activation in response to repeated administration of cocaine injections and reduced responses to cocaine challenges. In vivo microdialysis experiments demonstrate that the protective effects of EE do not depend on reduced cocaine-induced increases in the dopamine levels in the ventral or dorsal striatum. On the other hand, they were associated with reduced cocaine-induced expression of the immediate early gene zif-268 in the nucleus accumbens (shell and core) of EE mice. Finally, basal levels of Delta-Fos B, a transcription factor known to be increased by sustained activation of striatal neurons, are higher in the striatum of EE compared to SE mice and repeated administration of cocaine increases Delta-Fos B levels in SE mice but decreases them in EE mice. Altogether our results demonstrate that exposure to complex environments during early stages of life produce dramatic changes in the striatum that result in reduced reactivity to drugs of abuse.

Environmental Enrichment Reduces Cocaine Seeking and Reinstatement Induced by Cues and Stress but Not by Cocaine

Whereas earlier studies have focused on the preventive effects of enriched environments (EE) in drug addiction, in a recent study we suggested that EE can also have ‘curative’ effects. In fact, we found that cocaine addiction-related behaviors can be eliminated by housing cocaine-treated mice in EE during periods of forced abstinence. However, those results were obtained with two simple models of addiction, conditioned place preference (CPP), and behavioral sensitization. In this study, we used intravenous drug self-administration procedures in rats to further investigate the beneficial effects of EE on cocaine addiction in a reinstatement model of relapse. Singly housed rats learned to self-administer cocaine during 10 consecutive daily sessions (0.6 mg/injection, 6 h/day). They were then housed three per cage in either standard environments (SE) or EE and were kept abstinent in the animal facility until testing for extinction and reinstatement. We found that 30 days of EE significantly and consistently reduced cocaine seeking during a 6-h extinction session. In addition, EE significantly reduced cue- and stress-induced reinstatement. Surprisingly, given our earlier results in mice with CPP, EE did not reduce cocaine-induced reinstatement regardless of the level of exposure to cocaine and the duration of the period of abstinence and exposure to EE. Altogether, these results support the hypothesis that EE can reduce cocaine-induced craving and highlight the importance of positive life conditions in facilitating abstinence and preventing relapse to cocaine addiction.

Environmental enrichment decreases the rewarding but not the activating effects of heroin.

RationaleEnvironmental conditions during adolescence, a critical period of brain maturation, can have important consequences on subsequent vulnerability to drugs of abuse. We have recently found that the behavioral effects of cocaine as well as its ability to increase expression of zif-268 are reduced in mice reared in enriched environments (EE).ObjectivesThe present experiments examined whether environmental enrichment has protective influences on the effects of heroin, a drug of addiction whose mechanism of action differs from that of cocaine.Materials and methodsMice were housed either in standard environments (SE) or in EE from weaning to adulthood before any drug exposure. EE were constituted by big housing cages and contained constantly a running wheel and a small house and four to five toys that were changed once a week with new toys of different shapes and colors. We assessed the influence of EE on the ability of heroin to (1) induce conditioned place preferences, (2) induce behavioral sensitization, (3) increase dopamine levels in the nucleus accumbens (NAc), and (4) increase expression of the immediate early gene zif-268 in the striatum.ResultsConditioned place preference but not behavioral sensitization was reduced in EE mice compared to SE mice. Heroin induced similar increases in dopamine levels and in the expression of zif-268 in the NAc of EE and SE mice.ConclusionsThe rewarding effects of heroin are blunted by EE and appear to be, at least in part, independent from activation of the mesolimbic system.

Environmental enrichment during adolescence regulates gene expression in the striatum of mice

We have previously shown that environmental enrichment decreases the activating and rewarding effects of the psychostimulant cocaine and increases resistance to the neurotoxic effect of the Parkinson-inducing drug MPTP. These effects were accompanied by an increase in the striatal expression of the neurotrophin BDNF, an increase in the striatal levels of delta-Fos B and by a decrease in striatal levels of the dopamine transporter, the main molecular target for cocaine and MPTP. Here, we used cDNA arrays to investigate the effects of rearing mice in enriched environments from weaning to adulthood on the profile of expression of genes in the striatum focusing on genes involved in intracellular signalling and functioning. We found that mice reared in an enriched environment show several alterations in the levels of mRNA coding for proteins involved in cell proliferation, cell differentiation, signal transduction, transcription and translation, cell structure and metabolism. Several of these findings were further confirmed by real-time quantitative PCR and, in the case of protein kinase C lambda, also by western blot. These findings are the first description of alterations in striatal gene expression by an enriched environment. The striatal gene expression regulation by environment that we report here may play a role in the resistance to the effects of drugs of abuse and dopaminergic neurotoxins previously reported.

The proliferating cell nuclear antigen regulates retinoic acid receptor transcriptional activity through direct protein–protein interaction

Retinoic acid receptors (RARs) interact, in a ligand-dependent fashion, with many coregulators that participate in a wide spectrum of biological responses, ranging from embryonic development to cellular growth control. The transactivating function of these ligand-inducible transcription factors reside mainly, but not exclusively, in their ligand-binding domain (AF2), which recruits or dismiss coregulators in a ligand-dependent fashion. However, little is known about AF2-independent function(s) of RARs. We have isolated the proliferating cell nuclear antigen (PCNA) as a repressor of RAR transcriptional activity, able to interact with an AF2-crippled RAR. The N-terminus of PCNA interacts directly with the DNA-binding domain of RAR, and PCNA is recruited to a retinoid-regulated promoter in intact cells. This interaction affects the transcriptional response to retinoic acid in a promoter-specific manner, conferring an unanticipated role to PCNA in transcriptional regulation. Our findings also suggest a role for RAR as a factor coordinating DNA transcription and repair.

Early exposure to environmental enrichment alters the expression of genes of the endocannabinoid system.

Early environmental enrichment (EE) produces several changes in gene expression in the brain and confers protection against the behavioral, neurochemical and molecular effects of repeated administration of drugs of abuse. Because the endogenous cannabinoid system (ECS) is known to play an important role in the rewarding effects of drugs, we investigated whether the positive effects of early exposure to EE are associated with changes in the expression of genes encoding for proteins that belong to the ECS in C57 mice. Using in situ hybridization, we compared the expression of the cannabinoid receptor CB1, fatty acid amide hydrolase (FAAH) and monoacylglycerol lipase (MGL) enzymes in brain regions involved in drug addiction in mice reared in either EE or standard environments (SE) from weaning until adulthood. We found that EE increases CB1 mRNA levels in the hypothalamus and in the basolateral amygdala but decreased them in the basomedial amygdala. Similarly, we found that FAAH mRNA levels are higher in the hypothalamus and the basolateral amygdala of EE mice compared to SE mice, with no change in the basomedial amygdala. In contrast, MGL mRNA levels were not affected by EE in any of the areas analyzed. The regional selectivity of EE-induced changes may indicate that early exposure to EE induces changes in the ECS that could result in reduced responses to stress, as confirmed in EE mice in a novelty-induced suppression of feeding test, and, ultimately, in resistance to addiction.

Chronic Stimulation of the Tone of Endogenous Anandamide Reduces Cue- and Stress-Induced Relapse in Rats

Background: The endogenous cannabinoid system plays an important role in motivation, stress, and drug abuse. Pharmacologically, the endocannabinoid system can be stimulated by either agonists of CB1 receptors or inhibition of metabolic degradation of endogenous cannabinoids and consequent increases in their brain levels. Methods: Here, we investigated whether chronic administration during a period of withdrawal of the fatty acid amide hydrolase inhibitor URB597, which increases anandamide levels, would decrease the risks of relapse to cocaine seeking. Rats were allowed to self-administer cocaine and then they underwent forced withdrawal for 28 days, during which they were treated with URB597 or vehicle. One day after the last injection, we investigated cocaine seeking in one 6h extinction session and relapse triggered by re-exposure to drug-associated cues or a pharmacological stressor. Results: We found that administration of URB597 significantly decreases cocaine-seeking behavior and cue- and stress-induced relapse.Conclusion: These results suggest that stimulation of the endocannabinoid system could be helpful to prevent relapse to cocaine addiction.

Reduction of Cocaine-Induced Locomotor Effects by Enriched Environment Is Associated with Cell-Specific Accumulation of ΔFosB in Striatal and Cortical Subregions

Abstract Background: Early exposure to enriched environments has been shown to decrease the locomotor effects induced by repeated injections of cocaine and modify basal and cocaine-induced total protein levels of the transcription factor ΔFosB in the whole striatum of mice. In this study, we aimed at characterizing whether the profile of ΔFosB accumulation induced by enriched environments and cocaine would be similar or different in terms of brain areas and cell type. Methods: We used mice expressing the eGFP protein in D1 receptor positive (D1R(+)) neurons to determine whether Δ FosB induced by enriched environment or cocaine injections (5×15 mg/kg) would occur in selective subpopulations of neurons in several subregions of the striatum and prefrontal cortex. Results: We found that: (1) exposure to enriched environment reduces cocaine-induced locomotor activation, confirming our previous findings; (2) exposure to enriched environment by itself increases the accumulation of Δ FosB mostly in D1R(-) cells in the shell part of the nucleus accumbens and dorsal striatum, whereas in the nucleus accumbens core, Δ FosB accumulates in both D1R(+) and D1R(-) neurons; (3) in standard environment mice, cocaine induces accumulation of Δ FosB selectively in D1R(+) cells in the nucleus accumbens, dorsal striatum, and infralimbic cortex; and (4) the effects of enriched environments and cocaine on accumulation of Δ FosB were reciprocally blocked by their combination. Conclusions: Altogether, these results suggest that the enriched environment-induced reduction in behavioral effects of cocaine might result from 2 distinct effects on ΔFosB in striatal medium-sized spiny neurons belonging to the direct and indirect pathways.