Abstract
Rats emit ultrasonic vocalizations (USVs) as social signals in several situations. Lesion studies have shown that rat perirhinal cortex (PR), a polymodal sensory region that is reciprocally connected with the amygdala, is critical for normal fear conditioning to so-called "22 kHz USVs". Here we evaluated single-unit responses in rat PR to 22 kHz USVs and other acoustic stimuli. One question was whether PR circuits are specifically and preferentially tuned, prior to fear conditioning, to respond to USVs and USV-like stimuli. Two 22 kHz USVs were pre-recorded from different conspecifics. Each USV consisted of a "bout" of several discrete calls. Using experimentally naïve rats, single-unit responses to the USVs were compared with responses to continuous or discontinuous tones that had the same root frequency as the USVs (19 or 22 kHz). The on/off patterns of the discontinuous tones were temporally matched to the call structure in the corresponding USVs. Compared to continuous tones, the USVs were no more likely to elicit single-unit firing changes in PR. On the other hand, the continuous tones and USVs clearly did elicit different firing patterns in many units. More specifically, the USVs sometimes elicited a transient increase in discharge frequency to each call in a bout of calls. Interestingly, the USVs and the temporally matched tone segments usually elicited similar firing patterns. The USV-elicited firing pattern in PR thus appears to be controlled by the on/off temporal structure of the calls rather than by the frequency or amplitude modulations associated with each call in a bout of calls.