Perirhinal damage produces modality-dependent deficits in fear learning.

The perirhinal cortex (PER) receives multimodal and unimodal sensory information from all modalities. In addition, the PER is anatomically connected with several brain regions that support fear learning. Several studies suggest that the PER is involved in fear conditioning to discontinuous auditory cues but not to continuous auditory cues. To date, studies examining the role of the PER in fear conditioning has largely focused on auditory and contextual stimuli. The present study assessed whether the role of the PER in fear conditioning would extend to visual modalities. Rodents were randomly assigned to one of four conditioned stimuli, which consisted of either a tone or a light stimulus that was either continuous or discontinuous. Pre-training excitotoxic lesions to the PER significantly reduced freezing to auditory and visual cues during the acquisition phase regardless of stimulus continuity. During subsequent testing, perirhinal lesions produced significant decreases in freezing levels to both continuous and discontinuous tones but not to either of the light CS groups. These results suggest that the PER is involved in the acquisition of fear across multiple cue modalities. However, the PER may have a more limited role in the retrieval of the fear memory dependent upon the cue modality.