Abstract
Associating odor cues with spatial information in the environment is critical for animal behavior. The lateral entorhinal cortex (LEC) is reciprocally interconnected with cortical areas for olfaction and the hippocampus and thus ideally positioned to integrate olfactory and spatial information. Here, we used mini-endoscopes to record neural activity in the mouse piriform cortex (PCx) and LEC. We show that in head-fixed mice, odor identity could be decoded from LEC ensembles, but less accurately than from PCx. In contrast, in mice freely navigating a linear track, LEC ensemble activity at the odor ports was dominated by positional information. Spatial position along the linear track could be decoded from LEC and PCx activity, with similar accuracy. However, PCx but not LEC exhibited strong behavior-driven modulation of positional information. Together, our data reveal that information about odor cues and spatial information is differentially encoded along the PCx-LEC axis.
Competing Interest Statement
The authors have declared no competing interest.