Quantitative analysis of neuronal diversity in the mouse olfactory bulb

Olfactory sensory information is processed and integrated by circuits within the olfactory bulb. Golgi morphology suggests the olfactory bulb contains several major neuronal classes. However, an increasingly diverse collection of neurochemical markers have been localized in subpopulations of olfacto...

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Bibliographic Details
Published in:Journal of comparative neurology (1911) 2007-04, Vol.501 (6), p.825-836
Main Authors: Parrish-Aungst, S., Shipley, M.T., Erdelyi, F., Szabo, G., Puche, A.C.
Format: Article
Language:English
Subjects:
Animals
Biomarkers - metabolism
Calbindin 2
Calbindins
Calcium-Binding Proteins - metabolism
Cell Count
Cell Size
cell type
dopamine
GABA
gamma-Aminobutyric Acid - metabolism
Glutamate Decarboxylase - metabolism
Golgi
heterogeneity
Immunohistochemistry
Isoenzymes - metabolism
lineage
Mice
Mice, Inbred C57BL
Mice, Transgenic
Nerve Tissue Proteins - metabolism
Neurocalcin - metabolism
Neurons - classification
Neurons - cytology
Neurons - metabolism
Nuclear Proteins - metabolism
Olfactory Bulb - cytology
Olfactory Bulb - metabolism
Parvalbumins - metabolism
Protein-Tyrosine Kinases - metabolism
S100 Calcium Binding Protein G - metabolism
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Summary:Olfactory sensory information is processed and integrated by circuits within the olfactory bulb. Golgi morphology suggests the olfactory bulb contains several major neuronal classes. However, an increasingly diverse collection of neurochemical markers have been localized in subpopulations of olfactory bulb neurons. While the mouse is becoming the animal model of choice for olfactory research, little is known about the proportions of neurons expressing and coexpressing different neurochemical markers in this species. Here we characterize neuronal populations in the mouse main olfactory bulb, focusing on glomerular populations. Immunofluorescent labeling for: 1) calretinin, 2) calbindin D‐28K (CB), 3) parvalbumin, 4) neurocalcin, 5) tyrosine hydroxylase (TH), 6) the 67‐kDa isoform of GAD (GAD67), and 7) the neuronal marker NeuN was performed in mice expressing green fluorescent protein under the control of the glutamic acid decarboxylase 65kDa (GAD65) promoter. Using unbiased stereological cell counts we estimated the total numbers of cells and neurons in the bulb and the number and percentage of neurons expressing and coexpressing different neurochemical populations in each layer of the olfactory bulb. Use of a genetic label for GAD65 and immunohistochemistry for GAD67 identified a much larger percentage of GABAergic neurons in the glomerular layer (55% of all neurons) than previously recognized. Additionally, while many glomerular neurons expressing TH or CB coexpress GAD, the majority of these neurons preferentially express the GAD67 isoform. These data suggest that the chemospecific populations of neurons in glomeruli form distinct subpopulations and that GAD isoforms are preferentially regulated in different neurochemical cell types. J. Comp. Neurol. 501:825–836, 2007. © 2007 Wiley‐Liss, Inc.
ISSN:0021-9967
1096-9861
DOI:10.1002/cne.21205