New research sheds light on how cocaine regulates gene expression in a crucial reward region of the brain to elicit long-lasting changes in behavior.
The study, published by Cell Press in the May 14th issue of the journal Neuron, provides exciting insight into the molecular pathways regulated by cocaine and may lead to new strategies for battling drug addiction.
It is well established that addictive drugs induce persistent changes in the brain's reward circuits. Previous research has indicated that addiction to drugs such as cocaine is associated with altered gene expression in the nucleus accumbens (NAc), a region of the brain that is involved in motivation, pleasure, and reward.
"Although we have known for some time that changes in gene expression contribute to the long-lasting regulation of the brain's reward circuitry that is seen during drug addiction, how those specific genes are regulated is not well understood," explains senior study author, Dr. Eric J. Nestler from the Department of Neuroscience at the Mount Sinai School of Medicine.
Dr. Nestler and colleagues combined sophisticated and highly sensitive genetic isolation and screening techniques to study regulation of gene transcription in the mouse NAc, including regulation of chromatin structure, after repeated administration of cocaine. The results of this novel analysis significantly refined the understanding of cocaine-regulated gene transcription in general, and advanced knowledge of the specific role of two transcription factors known to play a prominent role in cocaine-induced addiction.