Odor concentration change coding in the olfactory bulb

Ana Parabucki; Alexander Bizer; Genela Morris; Antonio E. Munoz; Avinash D.S. Bala; Matthew Smear; Roman Shusterman

doi:10.1523/ENEURO.0396-18.2019

Odor concentration change coding in the olfactory bulb

Ana Parabucki
, Alexander Bizer
, Genela Morris
, Antonio E. Munoz
, Avinash D.S. Bala
, Matthew Smear^*
, Roman Shusterman

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

25 Scopus citations

Abstract

Dynamical changes in the environment strongly impact our perception. Likewise, sensory systems preferentially represent stimulus changes, enhancing temporal contrast. In olfaction, odor concentration changes across consecutive inhalations (∆C _t ) can guide odor source localization, yet the neural representation of ∆C _t has not been studied in vertebrates. We have found that, in the mouse olfactory bulb, a subset of mitral/tufted (M/T) cells represents C _t , enhancing the contrast between different concentrations. These concentration change responses are direction selective: they respond either to increments or decrements of concentration, reminiscent of ON and OFF selectivity in the retina. This contrast enhancement scales with the magnitude, but not the duration of the concentration step. Further, ∆C _t can be read out from the total spike count per sniff, unlike odor identity and intensity, which are represented by fast temporal spike patterns. Our results demonstrate that a subset of M/T cells represents ∆C _t , providing a signal that may instruct navigational decisions in downstream olfactory circuits.

Original language	English
Article number	e0396-18.2019
Journal	eNeuro
Volume	6
Issue number	1
DOIs	https://doi.org/10.1523/ENEURO.0396-18.2019
State	Published - 1 Jan 2019
Externally published	Yes

Funding

Funders	Funder number
National Institutes of Health
European Commission
Marie Curie
National Institute on Deafness and Other Communication Disorders	R56DC015584
Israel Science Foundation	2212/14, 816/14
Seventh Framework Programme	334341

Keywords

Contrast
Dynamical stimulus
Electrophysiology
Mitral and tufted cells
Olfactory bulb

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10.1523/ENEURO.0396-18.2019

Cite this

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abstract = " Dynamical changes in the environment strongly impact our perception. Likewise, sensory systems preferentially represent stimulus changes, enhancing temporal contrast. In olfaction, odor concentration changes across consecutive inhalations (∆C t ) can guide odor source localization, yet the neural representation of ∆C t has not been studied in vertebrates. We have found that, in the mouse olfactory bulb, a subset of mitral/tufted (M/T) cells represents C t , enhancing the contrast between different concentrations. These concentration change responses are direction selective: they respond either to increments or decrements of concentration, reminiscent of ON and OFF selectivity in the retina. This contrast enhancement scales with the magnitude, but not the duration of the concentration step. Further, ∆C t can be read out from the total spike count per sniff, unlike odor identity and intensity, which are represented by fast temporal spike patterns. Our results demonstrate that a subset of M/T cells represents ∆C t , providing a signal that may instruct navigational decisions in downstream olfactory circuits.",

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AU - Smear, Matthew

AU - Shusterman, Roman

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N2 - Dynamical changes in the environment strongly impact our perception. Likewise, sensory systems preferentially represent stimulus changes, enhancing temporal contrast. In olfaction, odor concentration changes across consecutive inhalations (∆C t ) can guide odor source localization, yet the neural representation of ∆C t has not been studied in vertebrates. We have found that, in the mouse olfactory bulb, a subset of mitral/tufted (M/T) cells represents C t , enhancing the contrast between different concentrations. These concentration change responses are direction selective: they respond either to increments or decrements of concentration, reminiscent of ON and OFF selectivity in the retina. This contrast enhancement scales with the magnitude, but not the duration of the concentration step. Further, ∆C t can be read out from the total spike count per sniff, unlike odor identity and intensity, which are represented by fast temporal spike patterns. Our results demonstrate that a subset of M/T cells represents ∆C t , providing a signal that may instruct navigational decisions in downstream olfactory circuits.

AB - Dynamical changes in the environment strongly impact our perception. Likewise, sensory systems preferentially represent stimulus changes, enhancing temporal contrast. In olfaction, odor concentration changes across consecutive inhalations (∆C t ) can guide odor source localization, yet the neural representation of ∆C t has not been studied in vertebrates. We have found that, in the mouse olfactory bulb, a subset of mitral/tufted (M/T) cells represents C t , enhancing the contrast between different concentrations. These concentration change responses are direction selective: they respond either to increments or decrements of concentration, reminiscent of ON and OFF selectivity in the retina. This contrast enhancement scales with the magnitude, but not the duration of the concentration step. Further, ∆C t can be read out from the total spike count per sniff, unlike odor identity and intensity, which are represented by fast temporal spike patterns. Our results demonstrate that a subset of M/T cells represents ∆C t , providing a signal that may instruct navigational decisions in downstream olfactory circuits.

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Odor concentration change coding in the olfactory bulb

Abstract

Funding

Keywords

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