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- All Subjects: Drug Addiction
- Creators: Olive, Michael F
Description
The capability of cocaine-associated stimuli in eliciting craving in human addicts, even after extended periods of abstinence, is modeled in animals using cue reinstatement of extinguished cocaine-seeking behavior. This study aimed to examine brain activation in response to cocaine cues in this model apart from activation produced by test novelty using a novel cue control. Rats trained to self-administer cocaine paired with either an oscillating light or tone cue underwent daily extinction training and were then tested for reinstatement of extinguished cocaine-seeking behavior elicited by response-contingent presentations of either their assigned cocaine-paired cue or the alternate, novel cue. Additional controls received saline infusions and cue presentations yoked to a cocaine-trained rat. Brains were harvested for Fos immunohistochemistry immediately after the 90-min reinstatement test. Surprisingly, conditioned and novel cues both reinstated responding to a similar degree; however magnitude of reinstatement did vary by cue modality with the greatest reinstatement to the light cues. In most brain regions, Fos expression was enhanced in rats with a history of cocaine training regardless of cue type with the exception of the Cg1 region of the anterior cingulate cortex, which was sensitive to test cue modality. Also Fos expression within the dorsomedial caudate-putamen was correlated with responding in the novel, but not conditioned, cue groups. In subsequent experiments, we observed a similar pattern of reinstatement in rats trained and tested for sucrose-seeking behavior, whereas rats trained and tested with the cues only reinstated to a novel light and tone, but not a familiar cue. The results suggest that novel cues reinstate responding to a similar extent as conditioned cues regardless of whether animals have a history of operant-delivered drug or a natural reinforcer. Furthermore, similar brain circuits as those involved in cocaine-seeking behavior are activated by novel cues, suggesting converging processes exist to drive conditioned and novel reinforcement seeking.
ContributorsBastle, Ryan (Author) / Neisewander, Janet L (Thesis advisor) / Sanabria, Federico (Committee member) / Olive, Michael F (Committee member) / Arizona State University (Publisher)
Created2012
Description
Intermittent social defeat stress induces psychostimulant cross-sensitization, as well as long-lasting social avoidance behavior. Previous data reveal heightened expression of AMPA receptor (AMPAR) GluA1 subunits in rat ventral tegmental area (VTA), which occurs concurrently with social stress-induced amphetamine (AMPH) cross-sensitization. These studies described herein examined whether VTA GluA1 AMPARs are important for the behavioral consequences of social stress and investigated the role of the infralimbic (IL) to VTA pathway in the induction of these responses. Functional inactivation of GluA1 in VTA DA neurons prevented stress-induced AMPH sensitization without affecting social avoidance behavior, while GluA1 overexpression in VTA DA neurons mimicked the effects of stress on AMPH sensitization. Female rats were more sensitive to the effects of stress on AMPH administration than males, specifically during proestrus/estrus, which is characterized by higher circulating estradiol. Fluorescent immunohistochemistry revealed that females expressed higher GluA1 in VTA DA neurons as a result of intermittent social defeat stress, independent of estrus stage; by contrast, females during proestrus/estrus displayed higher tyrosine kinase receptor type 2 (TrkB) expression, which is the receptor for brain derived neurotrophic factor (BDNF), in VTA DA neurons, independent of stress exposure. Functional inactivation of GluA1 in VTA DA neurons prevented stress-induced AMPH sensitization and overexpression mimicked the effects of stress on AMPH sensitization. This suggests that BDNF-TrkB signaling may work concomitantly with GluA1 signaling in the VTA to drive sex-dependent differences in stress-induced locomotor sensitization effects. Optogenetic inhibition of the IL-VTA pathway in male rats prevented stress-induced AMPH sensitization compared to control animals. In addition, fluorescent immunohistochemistry displayed less Fos labeling in the nucleus accumbens (NAc) of rats with IL-VTA light inhibition compared to control animals. This suggests that the IL-VTA pathway plays a critical role in the induction of stress-induced sensitivity to AMPH, and blocking this pathway prevents mesolimbic DA signaling to the NAc. We conclude that IL glutamate projections onto GluA1-homomeric AMPA receptors in VTA DA neurons play a critical role in driving the stress-induced sensitization response in males and females. Therefore, GluA1 VTA DA neurons could potentially be a therapeutic target to prevent stress-induced drug susceptibility in the future.
ContributorsRudolph, Megan Leigh (Author) / Hammer, Ronald P. (Thesis advisor) / Olive, Michael F (Thesis advisor) / Nikulina, Ella M (Committee member) / Ferguson, Deveroux (Committee member) / Qiu, Shenfeng (Committee member) / Arizona State University (Publisher)
Created2020