Neural Substrates of Drosophila Larval Anemotaxis.
CNS
Drosophila larva
anemotaxis
neural substrates
somatosensory processing
Journal
Current biology : CB
ISSN: 1879-0445
Titre abrégé: Curr Biol
Pays: England
ID NLM: 9107782
Informations de publication
Date de publication:
18 02 2019
18 02 2019
Historique:
received:
31
01
2018
revised:
29
11
2018
accepted:
04
01
2019
pubmed:
13
2
2019
medline:
4
3
2020
entrez:
13
2
2019
Statut:
ppublish
Résumé
Animals use sensory information to move toward more favorable conditions. Drosophila larvae can move up or down gradients of odors (chemotax), light (phototax), and temperature (thermotax) by modulating the probability, direction, and size of turns based on sensory input. Whether larvae can anemotax in gradients of mechanosensory cues is unknown. Further, although many of the sensory neurons that mediate taxis have been described, the central circuits are not well understood. Here, we used high-throughput, quantitative behavioral assays to demonstrate Drosophila larvae anemotax in gradients of wind speeds and to characterize the behavioral strategies involved. We found that larvae modulate the probability, direction, and size of turns to move away from higher wind speeds. This suggests that similar central decision-making mechanisms underlie taxis in somatosensory and other sensory modalities. By silencing the activity of single or very few neuron types in a behavioral screen, we found two sensory (chordotonal and multidendritic class III) and six nerve cord neuron types involved in anemotaxis. We reconstructed the identified neurons in an electron microscopy volume that spans the entire larval nervous system and found they received direct input from the mechanosensory neurons or from each other. In this way, we identified local interneurons and first- and second-order subesophageal zone (SEZ) and brain projection neurons. Finally, silencing a dopaminergic brain neuron type impairs anemotaxis. These findings suggest that anemotaxis involves both nerve cord and brain circuits. The candidate neurons and circuitry identified in our study provide a basis for future detailed mechanistic understanding of the circuit principles of anemotaxis.
Identifiants
pubmed: 30744969
pii: S0960-9822(19)30011-9
doi: 10.1016/j.cub.2019.01.009
pmc: PMC6380933
mid: NIHMS1519922
pii:
doi:
Types de publication
Journal Article
Research Support, N.I.H., Extramural
Research Support, Non-U.S. Gov't
Langues
eng
Sous-ensembles de citation
IM
Pagination
554-566.e4Subventions
Organisme : Howard Hughes Medical Institute
Pays : United States
Organisme : Wellcome Trust
ID : 205050/Z/16/Z
Pays : United Kingdom
Organisme : NIBIB NIH HHS
ID : DP2 EB022359
Pays : United States
Organisme : Medical Research Council
ID : MC_UP_1201/20
Pays : United Kingdom
Informations de copyright
Copyright © 2019 Elsevier Ltd. All rights reserved.
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