Immunocytochemical identification of GABAergic neurons in the main olfactory bulb of the rat

Immunocytochemical identification of GABAergic neurons in the main olfactory bulb of the rat

With the aid of a sheep antiserum against rat brain glutamate decarboxylase (GAD), the endogenous marker for GABAergic neurons, we have labeled immunocytochemically various types of nerve cells in the main olfactory bulb of rats, with and without topic injections of colchicine. The peroxidase-antipe...

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Bibliographic Details
Published in:Archives italiennes de biologie Vol. 122; no. 2; p. 83
Main Authors: Mugnaini, E, Wouterlood, F G, Dahl, A L, Oertel, W H
Format: Journal Article
Language:English
Published: Italy 01-01-1984
Subjects:
Animals
Colchicine - pharmacology
gamma-Aminobutyric Acid - physiology
Glutamate Decarboxylase - analysis
Immunoenzyme Techniques
Neurons - cytology
Neurons - enzymology
Olfactory Bulb - cytology
Olfactory Bulb - enzymology
Rats
Tissue Distribution
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Summary:With the aid of a sheep antiserum against rat brain glutamate decarboxylase (GAD), the endogenous marker for GABAergic neurons, we have labeled immunocytochemically various types of nerve cells in the main olfactory bulb of rats, with and without topic injections of colchicine. The peroxidase-antiperoxidase procedure was applied to floating Vibratome and frozen sections. A large part of the periglomerular cell population and practically all granule cells in the deep layers contain GAD-like immunoreactivity in untreated rats, while tufted and mitral cells (the projection neurons) are unstained. This observation confirms a previous study with a rabbit antiserum against mouse brain GAD, which suggested that GABAergic neurons with presynaptic dendrites contain high somatal concentrations of GAD. We show, however, that immunostaining of granule cell bodies decreases progressively from the internal plexiform layer to the deep portion of the granule cell layer. Many cell processes in the glomeruli are densely stained. They presumably represent synaptic gemmules of the numerous GAD-positive periglomerular cells, which thus could provide initial, inhibitory modulation of the afferent input. In the external plexiform layer immunostaining of the neuropil is substantially denser in the superficial half than in the deep half. This may reflect a corresponding gradient of inhibition related to unequal frequency of occurrence of synaptic gemmules of granule cell dendrites. Alternatively such a graded immunostaining of cell processes could be related to the corresponding gradient in the density of immunostaining of granule cell bodies in the deep layers, in accordance with recent data indicating that superficial and deep granule cells project their ascending dendrites respectively to superficial and deep portions of the external plexiform layer. Furthermore, we have demonstrated the presence of additional classes of GAD-positive neurons, microneurons in the external plexiform layer, small neurons in the periglomerular region, the external plexiform layer, the mitral cell layer, the internal plexiform layer, and medium-size neurons in the granule layer and the white matter. The small- and medium-size GAD-positive neurons appear weakly immunoreactive in untreated rats, but become densely stained after topic colchicine injection. Such cells presumably lack presynaptic dendrites and may correspond to different types of short axon cells demonstrated by the Golgi method.
ISSN:0003-9829