Rôle de la protéine Arc (Activity-regulated cytoskeleton-associated protein) dans les adaptations moléculaires et comportementales induites par la cocaïne

摘要

Molecular and cellular adaptations induced by drugs of abuse in the reward system play a key role in long-term behavioral alterations encountered in addiction. This work falls within an approach of understanding the cellular processes rapidly engaged by cocaine that could underlie the persistent alteration of neuronal physiology and behaviors. Arc protein is a major player in neuronal plasticity. Arc is induced in many behavioral paradigms and is essential for long-term synaptic plasticity and memory consolidation. The aim of this study was to characterize the profile and modality of Arc induction within the mouse striatum in response to cocaine administration. Our study shows that Arc expression is rapidly and transiently increased in the striatum after acute cocaine in an ERK-dependent fashion. This work revealed that cocaine-induced Arc protein rapidly and transiently accumulates in the nucleus of striatal neurons. In the nucleus, Arc is preferentially expressed in active transcription regions and localizes at the vicinity of phosphorylated histones H3. In vitro Arc overexpression decreased glutamate-induced Histones H3 phosphorylation showing that Arc interferes with activity-dependent chromatin remodeling. In vivo genetic invalidation of Arc expression in a transgenic mouse model was associated with a decreased chromatin compaction and increased RNA Polymerase II activity suggesting a repressive role of Arc on transcriptional mechanisms. Total Arc loss of expression leads to increased sensitivity to cocaine and promotes long-term behavioral alterations induced by low doses of cocaine.