Project description:Moble DNA in Drug Abuse

Project description:Adolescent Drug Abuse, ADHD and Related Disorders

Project description:Adolescent Drug Abuse, ADHD and Related Disorders

Project description:Alcohol-abuse drug disulfiram targets pediatric glioma via MLL degradation

Project description:Diethyldithiocarbamate, an anti-abuse drug, alleviates steatohepatitis and fibrosis in rodents

Project description:In summary, we characterized genomic signatures of response to drugs of abuse and we found positive correlations between the drug-induced expression and various behavioral effects. These signatures are formed by two dynamically inducible transcriptional networks: (1) CREB/SRF-dependent gene pattern that appears to be related to drug-induced neuronal activity, (2) the pattern of genes controlled at least in part via release of glucocorticoids and androgens that are associated with rewarding and harmful drug effects. The discovery of co-expressed networks of genes allowed for the identification of master-switch controlling factors involved in molecular response to the drugs. Finally, using the pharmacological tools we were able to dissect and inhibit particular gene expression patterns from genomic profile. Type: Drug response, Time-course, Gene expression profiling with Illumina Microarrays Keywords: Addiction, Drugs of abuse, Time-course, Immediate Early Genes, Glucocorticoid receptor dependent genes, Cocaine, Heroin, Nicotine, Ethanol, Morphine, Methamphetamine The microarray experiment was performed to analyze time-course of drug-induced transcriptional response in C57BL/6J mouse striatum. Six the most addictive and harming drugs of abuse (morphine 20 mg/kg, heroin 10 mg/kg, ethanol 2 g/kg, nicotine 1 mg/kg, methamphetamine 2 mg/kg or cocaine 25 mg/kg, i.p.) were selected for the comparison. Drug doses were previously reported as rewarding in mice and further tested in our laboratory. To analyze dynamics of early, intermediate and relatively late changes of mRNA abundance the experiment was performed in four time points (1, 2, 4 and 8h after drug administration). To exclude influence of drug injection and circadian rhythm on gene expression profile, control groups of saline treated and naïve animals were prepared for each time point. Design of the experiment assumed pooling of two animals per each array and using of three independent arrays per group. To provide appropriate balance in the whole dataset groups were equally divided between the array hybridization batches. 'Complete' normalized data and non-normalized data (containing control rows not represented in Platform GPL6105) are linked below as supplementary files.

Project description:In summary, we characterized genomic signatures of response to drugs of abuse and we found positive correlations between the drug-induced expression and various behavioral effects. These signatures are formed by two dynamically inducible transcriptional networks: (1) CREB/SRF-dependent gene pattern that appears to be related to drug-induced neuronal activity, (2) the pattern of genes controlled at least in part via release of glucocorticoids and androgens that are associated with rewarding and harmful drug effects. The discovery of co-expressed networks of genes allowed for the identification of master-switch controlling factors involved in molecular response to the drugs. Finally, using the pharmacological tools we were able to dissect and inhibit particular gene expression patterns from genomic profile. Type: Drug response, Time-course, Gene expression profiling with Illumina Microarrays Keywords: Addiction, Drugs of abuse, Time-course, Immediate Early Genes, Glucocorticoid receptor dependent genes, Cocaine, Heroin, Nicotine, Ethanol, Morphine, Methamphetamine

Project description:This is a mathematical model of Vicodin use and abuse used to investigate methods of combating Vicodin abuse in a population of patients who have obtained the drug through prescription. Mathematical descriptions of transitions through acute, chronic, abusive, and in-treatment populations are included.

Project description:<p>There are two major aims with this study.<br/> 1. To describe the developmental trajectory of (a) a community-based sample of youth with a childhood diagnosis of ADHD that has been prospectively followed from childhood into adulthood (approximately a 17-year span), and (b) a clinical sample of youth that received drug abuse treatment during adolescence (variable time span). <br/> 2. To examine the association of phenotypes of drug involvement severity and risk alleles that prior research has suggested to be associated with drug abuse and externalizing disorders. The sample (N=607) consists of three groups based on youth status: Treatment, High Risk, and Control. These groups are defined as follows: Treatment - attended treatment or a brief intervention for a substance use disorder during adolescence (n=402); High Risk - elevated scores on standardized measures of disruptive behaviors during childhood based on teacher and parent reports (n=142); Control - normative scores during childhood on standardized measures of disruptive behaviors based on teacher and parent reports, and absent of any DSM-based behavioral/mental disorder when assessed during childhood based on parent report (n=66). Among the 610 participants who provided DNA, 607 are usable samples.</p>

Project description:Drugs of abuse including nicotine and alcohol elicit their effect by stimulating the mesocorticolimbic dopaminergic system. There is a high incidence of nicotine dependence in alcoholics. To date only limited data is available on the molecular mechanism underlying the action of alcohol and nicotine in the human brain. This study utilised gene expression screening to identify genes sensitive to chronic alcohol abuse within the ventral tegmental area of the human brain. Keywords: gene expression, brain, alcohol abuse, human, ventral tegmental area