Differential bulbar and extrabulbar projections of diverse olfactory receptor neuron populations in the adult zebrafish (Danio rerio)

Immunohistochemical methods were used to characterize the expression of two calcium‐binding proteins, calretinin (CR) and S100, in the olfactory rosette of the adult zebrafish. These proteins are expressed in different sets of sensory neurons, and together represent a large proportion of these cells...

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Bibliographic Details
Published in:Journal of comparative neurology (1911) 2011-02, Vol.519 (2), p.247-276
Main Authors: Gayoso, José Ángel, Castro, Antonio, Anadón, Ramón, Manso, María Jesús
Format: Article
Language:English
Subjects:
Animals
Calbindin 2
calcium-binding proteins
calretinin
Danio rerio
Freshwater
glomerular fields
Golf protein
Immunohistochemistry
Marine
Neural Pathways - anatomy & histology
Neural Pathways - metabolism
Olfactory Bulb - anatomy & histology
Olfactory Bulb - metabolism
olfactory receptor neurons
Olfactory Receptor Neurons - cytology
Olfactory Receptor Neurons - metabolism
primary extrabulbar projections
S100
S100 Calcium Binding Protein G - metabolism
S100 Proteins - metabolism
Teleostei
teleosts (Cyprinids)
Zebrafish - anatomy & histology
Zebrafish - metabolism
Zebrafish Proteins
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Summary:Immunohistochemical methods were used to characterize the expression of two calcium‐binding proteins, calretinin (CR) and S100, in the olfactory rosette of the adult zebrafish. These proteins are expressed in different sets of sensory neurons, and together represent a large proportion of these cells. Double immunofluorescence for CR and Gαolf protein, and CR immunoelectron microscopy, indicated that most CR‐immunoreactive (ir) cells were ciliary neurons. Differential S100‐ and CR‐ir projections to glomerular fields of the olfactory bulb were also observed, although these projections overlap in some glomeruli. Application of the carbocyanine dye DiI to either S100‐ir or CR‐ir glomerular regions led to labeling of cells mostly similar to S100‐ir and CR‐ir neurons, respectively. Instead, these bulbar regions project to similar telencephalic targets. On the other hand, antibodies against keyhole limpet hemocyanin (KLH)‐stained numerous sensory cells in the olfactory rosette, including cells that were CR‐ and S100‐negative. This antiserum also stained most primary bulbar projections and revealed extrabulbar olfactory primary projections coursing to the ventral area of the telencephalon through the medial olfactory tract. This extrabulbar projection was confirmed by tract‐tracing with DiI. A loose association of this extrabulbar primary olfactory projection and the catecholaminergic populations of the ventral area was also observed with double tyrosine hydroxylase/KLH‐like immunohistochemistry. Comparison between KLH‐like‐ir pathways and the structures revealed by FMRFamide immunohistochemistry (a marker of terminal ganglion cells and fibers) indicated that the KLH‐like‐ir extrabulbar projection was different from the terminal nerve system. The significance of the extrabulbar olfactory projection of zebrafish is discussed. J. Comp. Neurol. 519:247‐276, 2011. © 2010 Wiley‐Liss, Inc.
ISSN:0021-9967
1096-9861
1096-9861
DOI:10.1002/cne.22518