Arc-Expressing Neuronal Ensembles Supporting Pattern Separation Require Adrenergic Activity in Anterior Piriform Cortex: An Exploration of Neural Constraints on Learning

Arc ensembles in adult rat olfactory bulb (OB) and anterior piriform cortex (PC) were assessed after discrimination training on highly similar odor pairs. Nonselective α- and β-adrenergic antagonists or saline were infused in the OB or anterior PC during training. OB adrenergic blockade slowed, but...

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Bibliographic Details
Published in:The Journal of neuroscience 2015-10, Vol.35 (41), p.14070-14075
Main Authors: Shakhawat, Amin M D, Gheidi, Ali, MacIntyre, Iain T, Walsh, Melissa L, Harley, Carolyn W, Yuan, Qi
Format: Article
Language:English
Subjects:
Adrenergic Antagonists - pharmacology
Animals
Brief Communications
Cytoskeletal Proteins - metabolism
Discrimination Learning - drug effects
Discrimination Learning - physiology
Epinephrine - metabolism
Female
Male
Nerve Tissue Proteins - metabolism
Odorants
Piriform Cortex - cytology
Rats
Rats, Sprague-Dawley
Reward
Sensory Receptor Cells - classification
Sensory Receptor Cells - metabolism
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Summary:Arc ensembles in adult rat olfactory bulb (OB) and anterior piriform cortex (PC) were assessed after discrimination training on highly similar odor pairs. Nonselective α- and β-adrenergic antagonists or saline were infused in the OB or anterior PC during training. OB adrenergic blockade slowed, but did not prevent, odor discrimination learning. After criterion performance, Arc ensembles in anterior piriform showed enhanced stability for the rewarded odor and pattern separation for the discriminated odors as described previously. Anterior piriform adrenergic blockade prevented acquisition of similar odor discrimination and of OB ensemble changes, even with extended overtraining. Mitral and granule cell Arc ensembles in OB showed enhanced stability for rewarded odor only in the saline group. Pattern separation was not seen in the OB. Similar odor discrimination co-occurs with increased stability in rewarded odor representations and pattern separation to reduce encoding overlap. The difficulty of similar discriminations may relate to the necessity to both strengthen rewarded representations and weaken overlap across similar representations. We show for the first time that adrenoceptors in anterior piriform cortex (aPC) must be engaged for adult rats to learn to discriminate highly similar odors. Loss of adrenergic activation in olfactory bulb (OB) slows, but does not prevent, discrimination learning. Both increased stability of the rewarded odor representation and increased pattern separation of the rewarded and unrewarded odors in aPC accompany successful discrimination. In the OB, rewarded odors increase in ensemble stability, but there is no evidence of pattern separation. We suggest that the slow acquisition of similar odor discriminations is related to the differing plasticity requirements for increased stability and pattern separation.
ISSN:0270-6474
1529-2401
DOI:10.1523/JNEUROSCI.2690-15.2015