Differential regulation of MeCP2 and PP1 in passive or voluntary administration of cocaine or food
| Autor: | Pascal Romieu, Sarah Pol Bodetto, Carolina Tesone-Coelho, Jean Zwiller, Patrick Anglard, Monique Majchrzak, Alexandra Barbelivien, Maxime Sartori |
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| Rok vydání: | 2014 |
| Předmět: |
Male
Volition Methyl-CpG-Binding Protein 2 Cell Adhesion Molecules Neuronal Glutamate decarboxylase Gene Expression Nerve Tissue Proteins Self Administration Striatum Chromatin remodeling MECP2 Eating Random Allocation Cocaine Dopamine Uptake Inhibitors Reward Memory Protein Phosphatase 1 Animals Pharmacology (medical) Reelin Epigenetics Rats Wistar Prefrontal cortex Pharmacology Extracellular Matrix Proteins biology Glutamate Decarboxylase Serine Endopeptidases Brain Protein phosphatase 1 Psychiatry and Mental health Reelin Protein biology.protein Conditioning Operant Psychology Food Deprivation Neuroscience |
| Zdroj: | The international journal of neuropsychopharmacology. 17(12) |
| ISSN: | 1469-5111 |
| Popis: | Cocaine exposure induces changes in the expression of numerous genes, in part through epigenetic modifications. We have initially shown that cocaine increases the expression of the chromatin remodeling protein methyl-CpG binding protein 2 (MeCP2) and characterized the protein phosphatase-1Cβ (PP1Cβ) gene, as repressed by passive i.p. cocaine injections through a Mecp2-mediated mechanism involving de novo DNA methylation. Both proteins being involved in learning and memory processes, we investigated whether voluntary cocaine administration would similarly affect their expression using an operant self-administration paradigm. Passive and voluntary i.v. cocaine intake was found to induce Mecp2 and to repress PP1Cβ in the prefrontal cortex and the caudate putamen. This observation is consistent with the role of Mecp2 acting as a transcriptional repressor of PP1Cβ and shows that passive intake was sufficient to alter their expression. Surprisingly, striking differences were observed under the same conditions in food-restricted rats tested for food pellet delivery. In the prefrontal cortex and throughout the striatum, both proteins were induced by food operant conditioning, but remained unaffected by passive food delivery. Although cocaine and food activate a common reward circuit, changes observed in the expression of other genes such as reelin and GAD67 provide new insights into molecular mechanisms differentiating neuroadaptations triggered by each reinforcer. The identification of hitherto unknown genes differentially regulated by drugs of abuse and a natural reinforcer should improve our understanding of how two rewarding stimuli differ in their ability to drive behavior. |
| Databáze: | OpenAIRE |
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