Stimulus duration encoding occurs early in the moth olfactory pathway.

Autor: Barta, Tomas, Monsempès, Christelle, Demondion, Elodie, Chatterjee, Abhishek, Kostal, Lubomir, Lucas, Philippe
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Zdroj: Communications Biology; 10/3/2024, Vol. 7 Issue 1, p1-17, 17p
Abstrakt: Pheromones convey rich ethological information and guide insects' search behavior. Insects navigating in turbulent environments are tasked with the challenge of coding the temporal structure of an odor plume, obliging recognition of the onset and offset of whiffs of odor. The coding mechanisms that shape odor offset recognition remain elusive. We designed a device to deliver sharp pheromone pulses and simultaneously measured the response dynamics from pheromone-tuned olfactory receptor neurons (ORNs) in male moths and Drosophila. We show that concentration-invariant stimulus duration encoding is implemented in moth ORNs by spike frequency adaptation at two time scales. A linear-nonlinear model fully captures the underlying neural computations and offers an insight into their biophysical mechanisms. Drosophila use pheromone cis-vaccenyl acetate (cVA) only for very short distance communication and are not faced with the need to encode the statistics of the cVA plume. Their cVA-sensitive ORNs are indeed unable to encode odor-off events. Expression of moth pheromone receptors in Drosophila cVA-sensitive ORNs indicates that stimulus-offset coding is receptor independent. In moth ORNs, stimulus-offset coding breaks down for short (< 200 ms) whiffs. This physiological constraint matches the behavioral latency of switching from the upwind surge to crosswind cast flight upon losing contact with the pheromone. Precise odor delivery shows that moth pheromone sensitive olfactory receptor neurons are capable of very fast response to odor offset. Adaptation of the neurons on two different time scales is necessary to reproduce the response time course. [ABSTRACT FROM AUTHOR]
Databáze: Complementary Index
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