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An oxytocin-dependent social interaction between larvae and adult C. elegans

An oxytocin-dependent social interaction between larvae and adult C. elegans
An oxytocin-dependent social interaction between larvae and adult C. elegans
Oxytocin has a conserved role in regulating animal social behaviour including parental-offspring interactions. Recently an oxytocin-like neuropeptide, nematocin, and its cognate receptors have been identified in the nematode Caenorhabditis elegans. We provide evidence for a pheromone signal produced by C. elegans larvae that modifies the behaviour of adult animals in an oxytocin-dependent manner increasing their probability of leaving a food patch which the larvae are populating. This increase is positively correlated to the size of the larval population but cannot be explained by food depletion nor is it modulated by biogenic amines, which suggest it is not an aversive behaviour. Moreover, the food-leaving behaviour is conspecific and pheromone dependent: C. elegans adults respond more strongly to C. elegans larvae compared to other nematode species and this effect is absent in C. elegans daf-22 larvae which are pheromone deficient. Neurotransmitter receptors previously implicated in C. elegans foraging decisions NPR-1 and TYRA-3, for NPY-like neuropeptides and tyramine respectively, do not appear to be involved in oxytocin-dependent adult food-leaving. We conclude oxytocin signals within a novel neural circuit that regulates parental-offspring social behaviour in C. elegans and that this provides evidence for evolutionary conservation of molecular components of a parental decision making behaviour.
2045-2322
Scott, Euan
7d240259-3074-4423-9beb-4e1e4616702b
Hudson, Adam
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Feist, Emily
17090654-ab15-4e64-aaa1-2e0f199365e7
Calahorro, Fernando
81b5dd15-c2cc-4470-98d3-9952aca6fb64
Dillon, James
f406e30a-3ad4-4a53-80db-6694bab5e3ed
de Frietas, Raissa
324cf9de-9b5e-4526-b478-c9ac3b472f59
Wand, Matthew
e909dc4b-9642-461e-b9ed-08025d558fab
Schoofs, Liliane
0cd45c97-2b32-446e-91b6-8219edd3f5f3
O'connor, Vincent
8021b06c-01a0-4925-9dde-a61c8fe278ca
Holden-Dye, Lindy
8032bf60-5db6-40cb-b71c-ddda9d212c8e
Scott, Euan
7d240259-3074-4423-9beb-4e1e4616702b
Hudson, Adam
2ee48428-c085-4f67-bf7d-425e4dc0748a
Feist, Emily
17090654-ab15-4e64-aaa1-2e0f199365e7
Calahorro, Fernando
81b5dd15-c2cc-4470-98d3-9952aca6fb64
Dillon, James
f406e30a-3ad4-4a53-80db-6694bab5e3ed
de Frietas, Raissa
324cf9de-9b5e-4526-b478-c9ac3b472f59
Wand, Matthew
e909dc4b-9642-461e-b9ed-08025d558fab
Schoofs, Liliane
0cd45c97-2b32-446e-91b6-8219edd3f5f3
O'connor, Vincent
8021b06c-01a0-4925-9dde-a61c8fe278ca
Holden-Dye, Lindy
8032bf60-5db6-40cb-b71c-ddda9d212c8e

Scott, Euan, Hudson, Adam, Feist, Emily, Calahorro, Fernando, Dillon, James, de Frietas, Raissa, Wand, Matthew, Schoofs, Liliane, O'connor, Vincent and Holden-Dye, Lindy (2017) An oxytocin-dependent social interaction between larvae and adult C. elegans. Scientific Reports, 7 (1), [10122]. (doi:10.1038/s41598-017-09350-7).

Record type: Article

Abstract

Oxytocin has a conserved role in regulating animal social behaviour including parental-offspring interactions. Recently an oxytocin-like neuropeptide, nematocin, and its cognate receptors have been identified in the nematode Caenorhabditis elegans. We provide evidence for a pheromone signal produced by C. elegans larvae that modifies the behaviour of adult animals in an oxytocin-dependent manner increasing their probability of leaving a food patch which the larvae are populating. This increase is positively correlated to the size of the larval population but cannot be explained by food depletion nor is it modulated by biogenic amines, which suggest it is not an aversive behaviour. Moreover, the food-leaving behaviour is conspecific and pheromone dependent: C. elegans adults respond more strongly to C. elegans larvae compared to other nematode species and this effect is absent in C. elegans daf-22 larvae which are pheromone deficient. Neurotransmitter receptors previously implicated in C. elegans foraging decisions NPR-1 and TYRA-3, for NPY-like neuropeptides and tyramine respectively, do not appear to be involved in oxytocin-dependent adult food-leaving. We conclude oxytocin signals within a novel neural circuit that regulates parental-offspring social behaviour in C. elegans and that this provides evidence for evolutionary conservation of molecular components of a parental decision making behaviour.

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Accepted/In Press date: 27 July 2017
e-pub ahead of print date: 31 August 2017
Published date: December 2017

Identifiers

Local EPrints ID: 412878
URI: http://eprints.soton.ac.uk/id/eprint/412878
ISSN: 2045-2322
PURE UUID: dda14875-5865-4ed4-9306-7432a59efefe
ORCID for James Dillon: ORCID iD orcid.org/0000-0003-3244-7483
ORCID for Vincent O'connor: ORCID iD orcid.org/0000-0003-3185-5709
ORCID for Lindy Holden-Dye: ORCID iD orcid.org/0000-0002-9704-1217

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Date deposited: 07 Aug 2017 13:07
Last modified: 16 Mar 2024 03:34

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Contributors

Author: Euan Scott
Author: Adam Hudson
Author: Emily Feist
Author: Fernando Calahorro
Author: James Dillon ORCID iD
Author: Raissa de Frietas
Author: Matthew Wand
Author: Liliane Schoofs

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