Differential distribution of olfactory receptor neurons in goldfish: Structural and molecular correlates

Abstract

The olfactory system of many terrestrial vertebrates comprises a main olfactory organ and a vomeronasal organ each containing a morphologically distinct type of olfactory receptor neuron (ORN). The two cell types also differ in the expression of G-proteins and odorant receptor molecules. Fish do not have a vomeronasal organ, and their olfactory neurons—three different morphological types—are contained in one epithelium. The olfactory organ of goldfish appears as a rosette, with the sensory epithelium lying along the proximal portion of each lamella, where it attaches to the midline raphe. Using immunocytochemistry, in situ hybridization, and electron microscopy, we tested whether a correlation exists between receptor cell morphology, distribution of cell type within the sensory epithelium, and expression of odorant receptors and G-proteins. A strong correlation exists between ORN morphology, type of odorant receptor and G-protein expressed and the distribution of sensory cells within the olfactory epithelium. The Buck and Axel type of odorant receptor and Gα_olf are expressed in tall ciliated ORNs distributed homogenously across the entire sensory epithelium. In contrast, microvillous ORNs expressing V2R-like receptors, and Gα_o, Gα_q, or Gα_i-3, and crypt type ORNs expressing Gα_o and Gα_q, are preferentially located along the dorsal margin of the epithelium and near the midline raphe. V2R- and OR-type receptor molecules do not colocalize in one cell, and only crypt-type ORNs express more than one G-protein. J. Comp. Neurol. 477:347–359, 2004.