Project description:Morphine addiction causes major medical and social problems worldwide. Chronic morphine exposure results in the development of behavioral sensitization, accompanied by the disruption of brain homeostasis. As a key brain reward region, nucleus accumbens (NAc) plays a central role in brain reward mechanisms. However, the contribution of morphine exposure to NAc is poorly understood. Here we indicated that chronic morphine exposure induced neuroinflammation, abnormal neuronal physiology, and dysregulation of glycolytic metabolism in NAc. In summary, our findings illustrate the effects of morphine in NAc, and provide a new insight for development of future morphine addiction therapeutics.

Project description:The current study aimed at addressing two questions: 1) How the expression of key miRNAs is altered in the NAc during the morphine-induced addiction? 2) Which is/are the target gene(s) and what is/are the regulatory mechanism(s) of gene(s) in response to the candidate miRNAs? To answer these two questions, the morphine addiction model was first established by using the conditioned place preference (CPP) paradigm. Then, the aberrant expression of miRNAs was identified in the NAc tissue by RNA-sequencing.

Project description:The current study aimed at addressing two questions: 1) How the expression of key lncRNAs is altered in the NAc during the morphine-induced addiction? 2) Which is/are the target gene(s) and what is/are the regulatory mechanism(s) of gene(s) in response to the candidate lncRNAs? To answer these two questions, the morphine addiction model was first established by using the conditioned place preference (CPP) paradigm. Then, the aberrant expression of lncRNAs was identified in the NAc tissue by RNA-sequencing.

Project description:Depression and anxiety disorders are more prevalent in females, but the majority of research in animal models, the first step in finding new treatments, has focused predominantly on males. Here we report that exposure to subchronic variable stress (SCVS) induces depression-associated behaviors in female mice, whereas males are resilient as they do not develop these behavioral abnormalities. In concert with these different behavioral responses, transcriptional analysis of nucleus accumbens (NAc), a major brain reward region, by use of RNA sequencing (RNA-seq) revealed markedly different patterns of stress regulation of gene expression between the sexes. Among the genes displaying sex differences was DNA methyltransferase 3a (Dnmt3a), which shows a greater induction in females after SCVS. Interestingly, Dnmt3a expression levels were increased in the NAc of depressed humans, an effect seen in both males and females. Local overexpression of Dnmt3a in NAc rendered male mice more susceptible to SCVS, whereas Dnmt3a knock-out in this region rendered females more resilient, directly implicating this gene in stress responses. Associated with this enhanced resilience of female mice upon NAc knock-out of Dnmt3a was a partial shift of the NAc female transcriptome toward the male pattern after SCVS. These data indicate that males and females undergo different patterns of transcriptional regulation in response to stress and that a DNA methyltransferase in NAc contributes to sex differences in stress vulnerability. mRNA profiles of sex-specific in stress response were generated in the Nucleus Accumbens for 3 female control mice, 3 male control mice, 3 stressed female mice, 3 stressed male mice. Cre-mediated Dnmt3a knock-out was performed on stressed mice, with 3 males and 3 females expressing control GFP and 3 males and 3 females expressing CRE/GFP.

Project description:The current study aimed at addressing a question: How the expression of key lncRNAs is altered in the NAc during the formation of morphine addiction memory? To answer these two questions, the mice were trained by using the conditioned place preference (CPP) paradigm. Then, the aberrant expression of lncRNAs was identified in the NAc tissue of the mice by RNA-sequencing.

Project description:Depression and anxiety disorders are more prevalent in females, but the majority of research in animal models, the first step in finding new treatments, has focused predominantly on males. Here we report that exposure to subchronic variable stress (SCVS) induces depression-associated behaviors in female mice, whereas males are resilient as they do not develop these behavioral abnormalities. In concert with these different behavioral responses, transcriptional analysis of nucleus accumbens (NAc), a major brain reward region, by use of RNA sequencing (RNA-seq) revealed markedly different patterns of stress regulation of gene expression between the sexes. Among the genes displaying sex differences was DNA methyltransferase 3a (Dnmt3a), which shows a greater induction in females after SCVS. Interestingly, Dnmt3a expression levels were increased in the NAc of depressed humans, an effect seen in both males and females. Local overexpression of Dnmt3a in NAc rendered male mice more susceptible to SCVS, whereas Dnmt3a knock-out in this region rendered females more resilient, directly implicating this gene in stress responses. Associated with this enhanced resilience of female mice upon NAc knock-out of Dnmt3a was a partial shift of the NAc female transcriptome toward the male pattern after SCVS. These data indicate that males and females undergo different patterns of transcriptional regulation in response to stress and that a DNA methyltransferase in NAc contributes to sex differences in stress vulnerability.

Project description:This study explored the interaction of early life and adult stress on transcriptional and chromosomal states in a 2x2 design. Male and female mice were subjected to early life stress (ELS) or were standard-reared (Std), were housed normally through adolescence, and were then exposed to 10 days of control (Ctl) or chronic social defeat stress (CSDS: males only) or 3 days of sub-threshold variable stress (STVS: females only) conditions in adulthood. Long-lasting transcriptional alterations were assessed in the ventral tegmental area (VTA), nucleus accumbens (NAc), medial prefrontal cortex (PFC), and ventral hippocampus (HIP, males only) in adulthood.

Project description:Early life adversity promotes sex-specific resilience to opioid addiction-related phenotypes

Project description:Chronic opiate use produces molecular and cellular adaptations in the nervous system, leading to tolerance, physical dependence and addiction. Genome-wide comparison of morphine-induced changes in brain transcription of mouse strains with different opioid-related phenotypes provides an opportunity to discover the relationship between gene expression and behavioral response to the drug. Keywords: Drug response

Project description:Chronic opiate use produces molecular and cellular adaptations in the nervous system, leading to tolerance, physical dependence and addiction. Genome-wide comparison of morphine-induced changes in brain transcription of mouse strains with different opioid-related phenotypes provides an opportunity to discover the relationship between gene expression and behavioral response to the drug. Experiment Overall Design: Microarray experiment was designed to determine the impact of genetic background on the transcriptional effects of morphine in the striatum. The effects of single (20 mg/kg, s.c.) and repeated morphine administration (10-40 mg/kg, 3 times daily for 5 days) were analyzed in four inbred mouse strains (129P3/J. DBA/2J, C57BL/6J, SWR/J). Twelve experimental groups were compared. Control animals received injections of saline. Three independent biological replicates of the microarray were prepared for each experimental group. For each array, independent pools of total RNA from three animals were prepared.