AI Article Synopsis

  • - Exposure to cues associated with drug use can lead to relapse in addicts, with the protein kinase ERK playing a crucial role in this process, particularly in the nucleus accumbens.
  • - Research utilized Flurogold labeling and pERK immunohistochemistry to identify specific types of nucleus accumbens neurons that respond to cocaine-paired cues, finding that both Acb-nigral and Acb-pallidal projection neurons exhibit this response.
  • - The study revealed that D1-expressing neurons in the nucleus accumbens show long-term changes tied to drug-related memories, and that local dopamine D1 receptors are essential for activating pERK in response to drug cues.

Article Abstract

Exposure to drug-paired cues can trigger addicts to relapse into drug seeking. Although the molecular mechanisms underlying cue-elicited cocaine seeking are incompletely understood, the protein kinase extracellular signal-regulated kinase (ERK) is known to have an important role. Psychostimulants and their associated cues can activate ERK in medium spiny neurons of the nucleus accumbens core (AcbC). These medium spiny neurons can be classified according to their projections (to ventral pallidum and/or substantia nigra) and by their mRNA expression. The present experiments were designed to determine which distinct set of AcbC projection neurons expresses phosphorylated ERK (pERK) in response to cocaine-paired contextual cues. Combined use of the retrograde label Flurogold with immunohistochemical staining of pERK was used to show that the AcbC pERK accompanying preference for cocaine-paired contexts occurs in both the accumbens (Acb)-nigral and Acb-pallidal projections. The gene expression characteristics of the neurons expressing pERK in response to cocaine-paired cues was further investigated using combined in situ hybridization and immunocytochemistry to show that AcbC pERK+ cells correspond to D1, but not preproenkephalin, mRNA+ cells. Furthermore, intra-AcbC infusion of the D1-antagonist SCH23390 attenuated cue-induced AcbC pERK expression. In aggregate, these results indicate that (i) the D1-expressing AcbC neurons evidence long-term plasticity related to drug-cue memories and (ii) local dopamine D1 receptors are necessary for the expression of cocaine-paired cue-induced pERK in these AcbC neurons.

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http://www.ncbi.nlm.nih.gov/pmc/articles/PMC3006074PMC
http://dx.doi.org/10.1038/npp.2010.174DOI Listing

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