Odor-evoked Increases in Olfactory Bulb Mitral Cell Spiking Variability

In the main olfactory bulb, several populations of granule cells (GCs) can be distinguished based on the soma location either superficially, interspersed with mitral cells within the mitral cell layer (MCL), or deeper, within the GC layer (GCL). Little is known about the physiological properties of superficial GCs (sGCs) versus deep GCs (dGCs). Here, we used patch-clamp recording methods to explore the role of Group I metabotropic glutamate receptors (mGluRs) in regulating the activity of GCs in slices from wildtype and mGluR−/− mutant mice. In wildtype mice, bath application of the selective Group I mGluR agonist DHPG depolarized and increased the firing rate of both GC subtypes. In the presence of blockers of fast synaptic transmission (APV, CNQX, gabazine), DHPG directly depolarized both GC subtypes, although the two GC subtypes responded differentially to DHPG in mGluR1−/− and mGluR5−/− mice. DHPG depolarized sGCs in slices from mGluR5−/− mice, although it had no effect on sGCs in slices from mGluR1−/− mice. By contrast, DHPG depolarized dGCs in slices from mGluR1−/− mice but had no effect on dGCs in slices from mGluR5−/− mice. Previous studies showed that mitral cells express mGluR1 but not mGluR5. The present results therefore suggest that sGCs are more similar to mitral cells than dGCs in terms of mGluR expression.

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Activity-dependent gating of lateral inhibition by correlated mitral cell activity in the mouse main olfactory bulb

BMC Neuroscience ◽

10.1186/1471-2202-8-s2-p126 ◽

2007 ◽

Vol 8 (S2) ◽

Author(s):

Armen C Arevian ◽

Nathaniel N Urban

Keyword(s):

Olfactory Bulb ◽

Lateral Inhibition ◽

Cell Activity ◽

Mitral Cell ◽

Main Olfactory Bulb ◽

Activity Dependent

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The Mitral and Short Axon Cells of the Olfactory Bulb

Journal of Cell Science ◽

10.1242/jcs.7.3.631 ◽

1970 ◽

Vol 7 (3) ◽

pp. 631-651

Author(s):

J. L. PRICE ◽

T. P. S. POWELL

Keyword(s):

Electron Microscope ◽

Olfactory Bulb ◽

Granule Cells ◽

Primary Dendrite ◽

Plexiform Layer ◽

Mitral Cell ◽

Granule Cell Layer ◽

Mitral Cells ◽

Axon Initial Segments ◽

Large Neurons

A description is given of the mitral and short axon cells of the olfactory bulb of the rat from Golgi material examined with the light microscope and from material examined with the electron microscope. The mitral cells are large neurons with primary and secondary dendrites which both extend into the overlying external plexiform layer, although only the primary dendrite enters the glomerular formations. No predominant antero-posterior orientation of the secondary dendrites has been found. Within the glomeruli the mitral cell dendrites are in synaptic contact with the olfactory nerves and also with the periglomerular cells, but elsewhere the only synapses on the mitral cells are the ‘reciprocal synapses’ with the granule cells. Synaptic-type vesicles are found in all parts of the mitral cells, including the axon initial segments; they appear to be especially concentrated in the distal portions of the dendrites. Several types of short axon cells have been found in the granule cell layer in Golgi-impregnated material. Their cell bodies can also be distinguished with the electron microscope, and from previous work it is probable that the axons of at least some of these cells form flattened-vesicle symmetrical synapses upon the granule cells.

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Massive normalization of olfactory bulb output in mice with a 'monoclonal nose'

eLife ◽

10.7554/elife.16335 ◽

2016 ◽

Vol 5 ◽

Cited By ~ 24

Author(s):

Benjamin Roland ◽

Rebecca Jordan ◽

Dara L Sosulski ◽

Assunta Diodato ◽

Izumi Fukunaga ◽

...

Keyword(s):

Olfactory Bulb ◽

Transgenic Mice ◽

Neural Correlates ◽

Mitral Cell ◽

Inhibitory Circuits ◽

Cell Responses ◽

Mechanistic Basis ◽

Signal Normalization ◽

Whole Cell Recordings

Perturbations in neural circuits can provide mechanistic understanding of the neural correlates of behavior. In M71 transgenic mice with a “monoclonal nose”, glomerular input patterns in the olfactory bulb are massively perturbed and olfactory behaviors are altered. To gain insights into how olfactory circuits can process such degraded inputs we characterized odor-evoked responses of olfactory bulb mitral cells and interneurons. Surprisingly, calcium imaging experiments reveal that mitral cell responses in M71 transgenic mice are largely normal, highlighting a remarkable capacity of olfactory circuits to normalize sensory input. In vivo whole cell recordings suggest that feedforward inhibition from olfactory bulb periglomerular cells can mediate this signal normalization. Together, our results identify inhibitory circuits in the olfactory bulb as a mechanistic basis for many of the behavioral phenotypes of mice with a “monoclonal nose” and highlight how substantially degraded odor input can be transformed to yield meaningful olfactory bulb output.

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Nectin-1 spots as a novel adhesion apparatus that tethers mitral cell lateral dendrites in a dendritic meshwork structure of the developing mouse olfactory bulb

The Journal of Comparative Neurology ◽

10.1002/cne.23762 ◽

2015 ◽

Vol 523 (12) ◽

pp. 1824-1839 ◽

Cited By ~ 6

Author(s):

Takahito Inoue ◽

Takeshi Fujiwara ◽

Yoshiyuki Rikitake ◽

Tomohiko Maruo ◽

Kenji Mandai ◽

...

Keyword(s):

Olfactory Bulb ◽

Mitral Cell

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Mitral Cell beta 1 and 5-HT2A Receptor Colocalization and cAMP Coregulation: A New Model of Norepinephrine-Induced Learning in the Olfactory Bulb

Learning & Memory ◽

10.1101/lm.54803 ◽

2003 ◽

Vol 10 (1) ◽

pp. 5-15 ◽

Cited By ~ 62

Author(s):

Q. Yuan

Keyword(s):

Olfactory Bulb ◽

Mitral Cell ◽

New Model

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Parallel Tufted Cell and Mitral Cell Pathways from the Olfactory Bulb to the Olfactory Cortex

The Olfactory System ◽

10.1007/978-4-431-54376-3_7 ◽

2014 ◽

pp. 133-160 ◽

Cited By ~ 4

Author(s):

Shin Nagayama ◽

Kei M. Igarashi ◽

Hiroyuki Manabe ◽

Kensaku Mori

Keyword(s):

Olfactory Bulb ◽

Mitral Cell ◽

Olfactory Cortex ◽

Tufted Cell

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Disorders of the Cranial Nerves and Brainstem

10.1093/med/9780197512166.003.0096 ◽

2021 ◽

pp. 851-861

Author(s):

Kelly D. Flemming

Keyword(s):

Olfactory Bulb ◽

Olfactory Receptor ◽

Cranial Nerves ◽

Olfactory Nerve ◽

Mitral Cell ◽

Olfactory Cortex ◽

Olfactory Receptor Cells ◽

Receptor Cells ◽

Clinical Disorders ◽

Primary Olfactory Cortex

This chapter briefly repeats key anatomic characteristics and then reviews clinical disorders affecting each cranial nerve in addition to the brainstem. More specifically, this chapter covers cranial nerves I, V, VII, and IX through XII plus the brainstem. The olfactory nerve is a special visceral afferent nerve that functions in the sense of smell. The axons of the olfactory receptor cells within the nasal cavity extend through the cribriform plate to the olfactory bulb. These olfactory receptor cell axons synapse with mitral cells in the olfactory bulb. Mitral cell axons project to the primary olfactory cortex and amygdala. The olfactory cortex interconnects with various autonomic and visceral centers.

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