DEVELOPMENT OF VOMERONASAL RECEPTOR NEURON SUBCLASSES AND ESTABLISHMENT OF TOPOGRAPHIC PROJECTIONS TO THE ACCESSORY OLFACTORY-BULB

Previous studies of the adult vomeronasal system have shown that vomer onasal receptor neurons in the middle layer (expressing Gi(alpha 2)) a nd deep layers (expressing Go(alpha)) of the sensory epithelium projec t to the anterior and posterior parts of the accessory olfactory bulb (AOB), respectively. In the present study, the development of the two populations of vomeronasal receptor neurons and their segregated proje ctions were investigated in the opossum, Monodelphis domestica. Antibo dies to G proteins Gi(alpha 2) and Go(alpha) were used to identify the two subpopulations of receptor neurons. The Gi(alpha 2)-immunoreactiv e (ir) cells and Go(alpha)-ir cells appeared between postnatal day 0 ( P0) and postnatal day 3 (P3) and both types of cells increased in numb er during later development. The differential localization of Gi(alpha 2)-ir cells in the middle layer and Go(alpha)-ir cells in the deep la yer of the VNO could be seen as early as P3 and became more prominent at later stages. The AOB was clearly identified at P10, and at this st age segregated projections of G(alpha 2)-ir fibers to the anterior par t and Go(alpha)-ir fibers to the posterior part of the AOB were seen. The segregation of the two types of fibers in the AOB resemble that in the adult after P21. These results suggest that Gi(alpha 2)-ir and Go (alpha)-ir subpopulations of receptor neurons in the VNO develop in pa rallel, and that segregation of the two populations of receptor neuron s in the VNO and the topographic projection to the AOB are established at very early stages during development. (C) 1997 Elsevier Science B. V.