ABSTRACT
Processing of olfactory information in the anterior piriform cortex (APC) is widely thought to be non-topographic due to distributed projections from the olfactory bulb (OB). Layer 2 principal neurons in the APC can be divided into 2 subtypes: semilunar (SL) and superficial pyramidal (SP) cells. Although it is known that SL and SP cells receive differential inputs from the OB, little is known about their projection pattern to downstream structures, such as the posterior piriform cortex (PPC). Here we examined feedforward and feedback axonal projections of SL and SP cells using a combination of mouse genetics, and retrograde labeling. Retrograde tracing from the OB or PPC showed that the APC projects to these higher and lower brain regions mainly through layer 2b cells, while dual-labeling revealed a sizeable fraction of cells extending collaterals to both target regions. Furthermore, a transgenic mouse line specifically labeling SL cells showed that they send profuse axonal projections to olfactory cortical areas, but not to the OB. These findings support a model in which information flow from SL to SP cells and back to the OB forms a hierarchical feedback circuit whereas the two cell types process recurrent and feedforward information in a parallel manner.