BMC Neuroscience (Feb 2010)

Gene expression changes in the medial prefrontal cortex and nucleus accumbens following abstinence from cocaine self-administration

  • Morgan Drake,
  • Brucklacher Robert M,
  • Patel Kruti M,
  • Lull Melinda E,
  • Freeman Willard M,
  • Roberts David CS,
  • Vrana Kent E

DOI
https://doi.org/10.1186/1471-2202-11-29
Journal volume & issue
Vol. 11, no. 1
p. 29

Abstract

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Abstract Background Many studies of cocaine-responsive gene expression have focused on changes occurring during cocaine exposure, but few studies have examined the persistence of these changes with cocaine abstinence. Persistent changes in gene expression, as well as alterations induced during abstinence may underlie long-lasting drug craving and relapse liability. Results Whole-genome expression analysis was conducted on a rat cocaine binge-abstinence model that has previously been demonstrated to engender increased drug seeking and taking with abstinence. Gene expression changes in two mesolimbic terminal fields (mPFC and NAc) were identified in a comparison of cocaine-naïve rats with rats after 10 days of cocaine self-administration followed by 1, 10, or 100 days of enforced abstinence (n = 6-11 per group). A total of 1,461 genes in the mPFC and 414 genes in the NAc were altered between at least two time points (ANOVA, p Conclusions Together, these changes help to illuminate processes and networks involved in abstinence-induced behaviors, including synaptic plasticity, MAPK signaling, and TNF signaling.