Effect of sniffing on the temporal structure of mitral/tufted cell output from the olfactory bulb

Neural activity underlying odor representations in the mammalian olfactory system is strongly patterned by respiratory behavior. These dynamics are central to many models of olfactory information processing. We have found previously that sensory inputs to the olfactory bulb change both their magnitu...

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Bibliographic Details
Published in:The Journal of neuroscience 2011-07, Vol.31 (29), p.10615-10626
Main Authors: Carey, Ryan M, Wachowiak, Matt
Format: Article
Language:English
Subjects:
Action Potentials - physiology
Analysis of Variance
Animals
Female
Nerve Net - physiology
Neural Inhibition - physiology
Neurons - physiology
Nonlinear Dynamics
Odorants
Olfactory Bulb - cytology
Olfactory Pathways - physiology
Presynaptic Terminals - physiology
Rats
Rats, Long-Evans
Reaction Time - physiology
Smell
Wakefulness
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Summary:Neural activity underlying odor representations in the mammalian olfactory system is strongly patterned by respiratory behavior. These dynamics are central to many models of olfactory information processing. We have found previously that sensory inputs to the olfactory bulb change both their magnitude and temporal structure as a function of sniff frequency. Here, we ask how sniff frequency affects responses of mitral/tufted (MT) cells--the principal olfactory bulb output neurons. We recorded from MT cells in anesthetized rats while reproducing sniffs recorded previously from awake animals and varying sniff frequency. The dynamics of a sniff-evoked response were consistent from sniff to sniff but varied across cells. Compared to the dynamics of receptor neuron activation by the same sniffs, the MT response was shorter and faster, reflecting a temporal sharpening of sensory inputs. Increasing sniff frequency led to moderate attenuation of MT response magnitude and significant changes in the temporal structure of the sniff-evoked MT cell response. Most MT cells responded with a shorter duration and shorter rise-time spike burst as sniff frequency increased, reflecting increased temporal sharpening of inputs by the olfactory bulb. These temporal changes were necessary and sufficient to maintain respiratory modulation in the MT cell population across the range of sniff frequencies expressed during behavior. These results suggest that the input-output relationship in the olfactory bulb varies dynamically as a function of sniff frequency and that one function of the postsynaptic network is to maintain robust temporal encoding of odor information across different odor sampling strategies.
ISSN:0270-6474
1529-2401
DOI:10.1523/jneurosci.1805-11.2011