Associative Encoding in Anterior Piriform Cortex versus Orbitofrontal Cortex during Odor Discrimination and Reversal Learning

Recent proposals have conceptualized piriform cortex as an association cortex, capable of integrating incoming olfactory information with descending input from higher order associative regions such as orbitofrontal cortex (OFC). If true, encoding in piriform cortex should reflect associative feature...

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Bibliographic Details
Published in:Cerebral cortex (New York, N.Y. 1991) N.Y. 1991), 2007-03, Vol.17 (3), p.643-652
Main Authors: Roesch, Matthew R., Stalnaker, Thomas A., Schoenbaum, Geoffrey
Format: Article
Language:English
Subjects:
Animals
Association Learning - physiology
Discrimination Learning - physiology
Electrophysiology
Frontal Lobe - cytology
Frontal Lobe - physiology
Male
Neural Pathways
Odorants
olfactory
Olfactory Pathways - cytology
Olfactory Pathways - physiology
orbitofrontal
piriform
rat
Rats
Rats, Long-Evans
reversal
Reversal Learning - physiology
Smell - physiology
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Summary:Recent proposals have conceptualized piriform cortex as an association cortex, capable of integrating incoming olfactory information with descending input from higher order associative regions such as orbitofrontal cortex (OFC). If true, encoding in piriform cortex should reflect associative features prominent in these areas during associative learning involving olfactory cues. To test this hypothesis, we recorded from neurons in OFC and anatomically related parts of the anterior piriform cortex (APC) in rats, learning and reversing novel odor discriminations. Findings in OFC were similar to what we have reported previously, with nearly all the cue-selective neurons exhibiting substantial plasticity during learning and reversal. Also, many of the cue-selective neurons were originally responsive in anticipation of the outcomes early in learning, thereby providing a single-unit representation of the cue-outcome associations. Some of these features were also evident in firing activity in APC, including some plasticity across learning and reversal. However, APC neurons failed to reverse cue selectivity when the associated outcome was changed, and the cue-selective population did not include neurons that were active prior to outcome delivery. Thus, although representations in APC are substantially more associative than expected in a purely sensory region, they do appear to be somewhat more constrained by the sensory features of the odor cues than representations in downstream areas of OFC.
ISSN:1047-3211
1460-2199
DOI:10.1093/cercor/bhk009