%0 Journal Article %A Jonas K. Olofsson %A Guangyu Zhou %A Brett S. East %A Christina Zelano %A Donald A. Wilson %T Odor identification in rats: Behavioral and electrophysiological evidence of learned olfactory-auditory associations %D 2019 %R 10.1523/ENEURO.0102-19.2019 %J eneuro %P ENEURO.0102-19.2019 %X The ability to recognize and identify a smell is highly dependent on multisensory context and expectation, for example, hearing the name of the odor source. Here, we develop a novel auditory-odor association task in rats, wherein the animal learn that a specific auditory tone, when associated with a specific odor, predicts reward (Go signal), whereas the same tone associated with a different odor, or vice versa, is not (No-Go signal). The tone occurs prior to the onset of the odor, allowing physiological analyses of sensory-evoked local field potential activity to each stimulus in primary auditory cortex and anterior piriform cortex. In trained animals that have acquired the task, both auditory and subsequent olfactory cues activate beta band oscillations in both the auditory and piriform cortices, suggesting multisensory integration. Naïve animals show no such multisensory responses, suggesting the response is learned. In addition to the learned multisensory evoked responses, functional connectivity between auditory and piriform cortex, as assessed with spectral coherence and phase lag index, is enhanced. Importantly, both the multi-sensory evoked responses and the functional connectivity are context-dependent. In trained animals, the same auditory stimuli presented in the home cage evoke no responses in auditory or piriform cortex, and functional connectivity between the sensory cortices is reduced. Together, the results demonstrate how learning and context shape the expression of multisensory cortical processing. Given that odor identification impairment is associated with preclinical dementia in humans, the mechanisms suggested here may help develop experimental models to assess effects of neuropathology on behavior.Significance statement An important feature in mammalian olfaction is the multisensory support provided by “higher” senses, such as hearing and vision. In humans, such multisensory context and expectation, for example hearing the name of the odor source, facilitates the identification of a smell. An impaired ability to identify odors is a sensitive predictor of cognitive decline and neurodegenerative dementia. We found that rats trained on a tone-odor association task, but not untrained rats, showed elevated electrophysiological responses in both auditory and olfactory cortices, as well as increased functional connectivity between these regions, during task engagement. These results provide evidence of a multisensory integration process that might provide clues to how neuropathology affects the brain. %U https://www.eneuro.org/content/eneuro/early/2019/07/29/ENEURO.0102-19.2019.full.pdf