Dopamine in the songbird auditory cortex shapes auditory preference

In vocal communication, vocal signals can provide listeners with information and also elicit motivated responses. Auditory cortical and mesolimbic reward circuits are often considered to have distinct roles in these processes, with auditory cortical circuits responsible for detecting and discriminating sounds and mesolimbic circuits ascribing salience and modulating preference for those sounds. Here, we investigated whether dopamine within auditory cortical circuits themselves can shape the incentive salience of a vocal signal. Using female zebra finches, who show natural preferences for vocal signals produced by males (‘songs’), we found that pairing passive song playback with pharmacological manipulations of dopamine in the secondary auditory cortex drives changes to song preferences. Plasticity of song preferences by dopamine lasted for at least one week and was not influenced by norepinephrine manipulations. These data suggest that dopamine acting directly in sensory processing areas can shape the incentive salience of communication signals.