Rapid, Experience-Induced Enhancement in Odorant Discrimination by Anterior Piriform Cortex Neurons

doi:10.1152/jn.00133.2003

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Rapid, Experience-Induced Enhancement in Odorant Discrimination by Anterior Piriform Cortex Neurons

Donald A. Wilson

Department of Zoology University of Oklahoma, Norman, Oklahoma 73019

Submitted 11 February 2003; accepted in final form 21 March 2003

Current views of odorant discrimination by the mammalian olfactorysystem suggest that the piriform cortex serves as a site ofodor object synthesis. Given the enormous number of odorantfeature combinations possible in nature, however, it seemsunlikely that cortical synthetic receptive fields (RFs) are innate but rather require experience for their formation. Thepresent experiment addressed two issues. First, we made a directcomparison of mitral/tufted cell and anterior piriform cortex(aPCX) neuron abilities to discriminate odorant mixtures fromtheir components to further test whether aPCX neurons can treatcollections of features different from the features themselves(synthetic coding). Second, we attempted to determine the minimum duration of experience necessary for formation of cortical syntheticRFs. Single-unit recordings were made from mitral/tufted cellsand aPCX layer II/III neurons in urethan-anesthetized rats.Cross-habituation between novel binary mixtures and their novelcomponents was used to determine odor discrimination abilities.The results suggest that after ≥50 s of experience witha binary mixture, aPCX neurons can discriminate the mixture from its components, whereas mitral/tufted cells cannot. However,when limited to 10 s of experience with the mixture, aPCX neuronsappear similar to mitral/tufted cells and do not discriminatemixtures from components. These results suggest experience-dependentsynthetic processing in aPCX and suggest an important rolefor perceptual learning in normal odor discrimination.

Address for reprint requests: D. A. Wilson, Dept. of Zoology, University of Oklahoma, Norman, Oklahoma 73019 (E-mail: dwilson{at}ou.edu).

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				D. A. Wilson Odor Perception is Dynamic: Consequences for Interpretation of Odor Maps Chem Senses, January 1, 2005; 30(suppl_1): i105 - i106. [Full Text] [PDF]

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				D. A. Wilson, M. L. Fletcher, and R. M. Sullivan Acetylcholine and Olfactory Perceptual Learning Learn. Mem., January 1, 2004; 11(1): 28 - 34. [Abstract] [Full Text] [PDF]