Project description:Gene expression profiling of nucleus Accumbens of rats that self administered cocaine and were subjected to 1 or 30 withdrawal days with or without extinction tests. The groups consist of 1. Saline rats (Sal.) 2. Rats that self-administered cocaine for 10 days and that were subjected to a withdrawal period of 1 day (1W) 3. Rats that self-administered cocaine for 10 days and that were subjected to a withdrawal period of 1 day and to an extinction test for assessment of cue-induced cocaine-seeking behavior (1C) 4. Rats that self-administered cocaine for 10 days and that were subjected to a withdrawal period of 30 days (30W) 5. Rats that self-administered cocaine for 10 days and that were subjected to a withdrawal period of 30 days and to an extinction test for assessment of cue-induced cocaine-seeking behavior (30C)

Project description:DNA methylation profiling of nucleus Accumbens of rats that self administered cocaine, were subjected to 30 withdrawal days, were treated with aCSF, RG108 or SAM and were subjected to extinction tests. The groups consist of: 1. Rats that self-administered cocaine for 10 days and that were subjected to a withdrawal period of 30 days, were injected in the nucleus accumbens with aCSF and were subjected to an extinction test for assessment of cue-induced cocaine-seeking behavior (aCSF) 2. Rats that self-administered cocaine for 10 days and that were subjected to a withdrawal period of 30 days, were injected in the nucleus accumbens with RG108 and were subjected to an extinction test for assessment of cue-induced cocaine-seeking behavior (RG108) 3. Rats that self-administered cocaine for 10 days and that were subjected to a withdrawal period of 30 days, were injected in the nucleus accumbens with SAM and were subjected to an extinction test for assessment of cue-induced cocaine-seeking behavior (SAM)

Project description:DNA methylation profiling of nucleus Accumbens of rats that self administered cocaine and were subjected to 1 or 30 withdrawal days with or without extinction tests. The groups consist of 1. Saline rats (Sal.) 2. Rats that self-administered cocaine for 10 days and that were subjected to a withdrawal period of 1 day (1W) 3. Rats that self-administered cocaine for 10 days and that were subjected to a withdrawal period of 1 day and to an extinction test for assessment of cue-induced cocaine-seeking behavior (1C) 4. Rats that self-administered cocaine for 10 days and that were subjected to a withdrawal period of 30 days (30W) 5. Rats that self-administered cocaine for 10 days and that were subjected to a withdrawal period of 30 days and to an extinction test for assessment of cue-induced cocaine-seeking behavior (30C)

Project description:Methamphetamine is a widely abused, highly addictive drug. Regulation of synaptic proteins within the brain’s reward pathway modulates addiction behaviours, the progression of drug addiction and long-term changes in brain structure and function that result from drug use. Therefore, using large scale proteomics studies we aim to identify global protein expression changes within the dorsal striatum, a key brain region involved in the modulation of addiction. We performed LC-MS/MS analyses on rat striatal synaptosomes following 30 days of methamphetamine self-administration (2 hours/day) and 14 days abstinence. We identified a total of 84 differentially-expressed proteins with known roles in neuroprotection, neuroplasticity, cell cytoskeleton, energy regulation and synaptic vesicles. We identify significant expression changes in stress-induced phosphoprotein and protein Tppp, which have not previously been associated with addiction. In addition, we confirm the role of amphiphysin and phosphatidylethanolamine binding protein in addiction. This approach has provided new insight into the effects of methamphetamine self-administration on synaptic protein expression in a key brain region associated with addiction, showing a large set of differentially-expressed proteins that persist into abstinence.

Project description:Rats were trained to orally self-administer alcohol in a concurrent, two-lever, free-choice contingency using a modification of the sweet solution fading procedure (O'Dell et al., 2004; Roberts et al., 2000; Vendruscolo et al., 2012). Following acquisition of self-administration, rats were allowed to self-administer unsweetened alcohol (10%) for 4 weeks and were then assigned to two groups matched by levels of responding: one group (dependent group) was exposed to chronic, intermittent ethanol vapors for 4 weeks to induce dependence; the other group (nondependent group) was not exposed to ethanol vapor. After a month of vapor exposure, rats were again tested during acute withdrawal (6-8 hours after removal from the vapor chambers) until stable levels of alcohol intake were achieved. As expected, alcohol vapor-exposed rats self-administered significantly greater amounts of alcohol than control rats not exposed to alcohol vapor during acute withdrawal. Rats were sacrificed during protracted abstinence (3 weeks after the end of alcohol vapor exposure) along with age-matched alcohol naive rats. 96 gene expression profiles (GEP) were obtained from 8 brain regions believed to be relevant in alcoholM-bM-^@M-^Ys reinforcing properties using the Affymetrix RN230.2 platform. Specifically, the following brain regions were microdissected and analyzed from nondependent and dependent alcohol self-administering rats as well as age-matched alcohol naive rats: (a) medial prefrontal cortex (MPF), (b) shell and (c) core NAc sub-regions, (d) central nucleus (CeA) and (e) basolateral nucleus of the amygdala (BLA), (f) dorsolateral and (g) ventral bed nucleus of the stria terminalis (BNST), and (h) ventral tegmental area (VTA).

Project description:Substance use disorder (SUD) is a chronic neuropsychiatric condition characterized by long-lasting alterations in the neural circuitry regulating reward and motivation. Substantial work has focused on characterizing the molecular substrates which underlie these persistent changes in neural function and behavior; however, this work has overwhelmingly focused on male subjects, despite mounting clinical and preclinical evidence that females demonstrate dissimilar progression to SUD and responsivity to drugs of abuse, such as cocaine. Here, we show that sex is a critical biological variable that defines drug-induced plasticity in the NAc. Using quantitative mass spectrometry, we assessed the protein expression patterns altered by cocaine self-administration and demonstrate unique molecular profiles between males and females. We show that 1. Cocaine self-administration induces non-overlapping protein expression patterns in males and females and 2. Cocaine specifically acts on baseline sexual dimorphisms to exert these effects. Critically, we find that cocaine administration blunts not only basal sex-differences in the accumbens proteome, but also the pre-existing sex differences in behavior for natural rewards. Together, these data suggest that chronic cocaine is capable of rewriting baseline proteomic function to maintain cocaine-specific behaviors.

Project description:Gene expression profiling in dopaminergic brain structures of rats self-administering cocaine. Effect of histone deacetylase inhibition We have shown that injection of the HDAC inhibitor trichostatin A (TsA) to rats is sufficient to decrease their motivation to self-administer cocaine. The aim of the present study was to investigate alterations in gene expression patterns in the Anterior Cingulate Cortex and Nucleus Accumbens of rats self-administering cocaine and treated repeatedly with TsA, and compare them with rats taking only cocaine. We used Affymetrix microarrays to identify genes the expression of which was up-regulated or downregulated during this process. Drug self-administration was performed in dark operant chambers under a fixed-ratio 1 schedule of reinforcement that was carried out for 4 days during daily 2 h sessions. Each nosepoke into the active hole triggered the i.v. delivery of a 40 μl cocaine solution (0,3 mg/kg/injection) under the control of the computer. Rats were sacrificed 2 h after the 4th self-administration session; the anterior cingulate cortex and the nucleus accumbens were then dissected. Two treatments comparison

Project description:microRNA-seq was used to find the differentially expressed level microRNA in the brain of the control,CS1 and CS14 rats.

Project description:Genetic association studies, pharmacological investigations and analysis of mice-lacking individual genes have made it clear that Cocaine administration and Withdrawal have a profound impact on multiple neurotransmitter systems. The GABAergic medium spiny neurons of the nucleus accumbens (NAc) exhibit changes in the expression of genes encoding receptors for glutamate and in the signaling pathways triggered by dopamine binding to G-protein-coupled dopamine receptors. Deep sequence analysis provides a sensitive, quantitative and global analysis of the effects of Cocaine on the NAc transcriptome. RNA prepared from the NAc of adult male mice receiving daily injections of Saline or Cocaine, or Cocaine followed by a period of Withdrawal, was used for high-throughput sequence analysis. Changes were validated by quantitative polymerase chain reaction or Western blot. On the basis of pathway analysis, a preponderance of the genes affected by Cocaine and Withdrawal was involved in the cadherin, heterotrimeric G-protein and Wnt signaling pathways. Distinct subsets of cadherins and protocadherins exhibited a sustained increase or decrease in expression. Sustained down-regulation of several heterotrimeric G-protein β- and γ-subunits was observed. In addition to altered expression of receptors for small molecule neurotransmitters, neuropeptides and endocannabinoids, changes in the expression of plasma membrane transporters and vesicular neurotransmitter transporters were also observed. The effects of chronic Cocaine and Withdrawal on the expression of genes essential to cholinergic, glutamatergic, GABAergic, peptidergic and endocannabinoid signaling are as profound as their effects on dopaminergic transmission. Simultaneous targeting of multiple Withdrawal-specific changes in gene expression may facilitate development of new therapeutic approaches that are better able to prevent relapse. High-throughput sequence analysis of RNA prepared from the nucleus accumbens of adult male mice receiving daily injections of Saline or Cocaine, or Cocaine followed by a period of Withdrawal. Nucleus accumbens libraries were sequenced in nine lanes (three technical replicates per sample) on an Illumina GAIIx using a 37-cycle paired-end sequencing protocol. Replicates were analyzed for intra-sample disparity and read data from all three lanes were then merged into one composite data file per sample; intra-sample coefficient of determination, R2 ≥ 0.98. The composite file was used for subsequent analyses.

Project description:The aim of the study was to investigate whether environmental factors like S-adenosylmethionine (SAM) via affecting epigenome could alter cocaine-induced gene expression and locomotor sensitization in mice. Using mouse nucleus accumbens (NAc) tissue, whole-genome gene expression profiling revealed that repeated SAM treatment affected a limited number of genes, but significantly modified cocaine-induced gene expression by blunting nonspecifically the cocaine response. At the gene level, we discovered that SAM modulated cocaine-induced DNA methylation by inhibiting both promoter-associated CpG-island hyper- and hypomethylation in the NAc but not in the reference tissue cerebellum. Total RNA was extracted from the mouse nucleus accumbens (NAc) tissue. Two tissues were combined to a sample, 4 samples per group used. RNA quality and quantity were assessed using the Nano-Drop -1000 spectrophotometer and the Agilent 2100 Bioanalyzer.