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Dissociable Effects of 5-HT2C Receptor Antagonism and Genetic Inactivation on Perseverance and Learned Non-Reward in an Egocentric Spatial Reversal Task
Dissociable Effects of 5-HT2C Receptor Antagonism and Genetic Inactivation on Perseverance and Learned Non-Reward in an Egocentric Spatial Reversal Task
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Dissociable Effects of 5-HT2C Receptor Antagonism and Genetic Inactivation on Perseverance and Learned Non-Reward in an Egocentric Spatial Reversal Task
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Dissociable Effects of 5-HT2C Receptor Antagonism and Genetic Inactivation on Perseverance and Learned Non-Reward in an Egocentric Spatial Reversal Task
Dissociable Effects of 5-HT2C Receptor Antagonism and Genetic Inactivation on Perseverance and Learned Non-Reward in an Egocentric Spatial Reversal Task

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Dissociable Effects of 5-HT2C Receptor Antagonism and Genetic Inactivation on Perseverance and Learned Non-Reward in an Egocentric Spatial Reversal Task
Dissociable Effects of 5-HT2C Receptor Antagonism and Genetic Inactivation on Perseverance and Learned Non-Reward in an Egocentric Spatial Reversal Task
Journal Article

Dissociable Effects of 5-HT2C Receptor Antagonism and Genetic Inactivation on Perseverance and Learned Non-Reward in an Egocentric Spatial Reversal Task

2013
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Overview
Cognitive flexibility can be assessed in reversal learning tests, which are sensitive to modulation of 5-HT2C receptor (5-HT2CR) function. Successful performance in these tests depends on at least two dissociable cognitive mechanisms which may separately dissipate associations of previous positive and negative valence. The first is opposed by perseverance and the second by learned non-reward. The current experiments explored the effect of reducing function of the 5-HT2CR on the cognitive mechanisms underlying egocentric reversal learning in the mouse. Experiment 1 used the 5-HT2CR antagonist SB242084 (0.5 mg/kg) in a between-groups serial design and Experiment 2 used 5-HT2CR KO mice in a repeated measures design. Animals initially learned to discriminate between two egocentric turning directions, only one of which was food rewarded (denoted CS+, CS-), in a T- or Y-maze configuration. This was followed by three conditions; (1) Full reversal, where contingencies reversed; (2) Perseverance, where the previous CS+ became CS- and the previous CS- was replaced by a novel CS+; (3) Learned non-reward, where the previous CS- became CS+ and the previous CS+ was replaced by a novel CS-. SB242084 reduced perseverance, observed as a decrease in trials and incorrect responses to criterion, but increased learned non-reward, observed as an increase in trials to criterion. In contrast, 5-HT2CR KO mice showed increased perseverance. 5-HT2CR KO mice also showed retarded egocentric discrimination learning. Neither manipulation of 5-HT2CR function affected performance in the full reversal test. These results are unlikely to be accounted for by increased novelty attraction, as SB242084 failed to affect performance in an unrewarded novelty task. In conclusion, acute 5-HT2CR antagonism and constitutive loss of the 5-HT2CR have opposing effects on perseverance in egocentric reversal learning in mice. It is likely that this difference reflects the broader impact of 5HT2CR loss on the development and maintenance of cognitive function.