Agonistic interactions elicit rapid changes in brain nonapeptide levels in zebrafish

Agonistic interactions elicit rapid changes in brain nonapeptide levels in zebrafish

The teleost fish nonapeptides, arginine vasotocin (AVT) and isotocin (IT), have been implicated in the regulation of social behavior. These peptides are expected to be involved in acute and transient changes in social context, in order to be efficient in modulating the expression of social behavior...

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Veröffentlicht in:Hormones and behavior 2016-08, Vol.84, p.57-63
Hauptverfasser: Teles, Magda C., Gozdowska, Magdalena, Kalamarz-Kubiak, Hanna, Kulczykowska, Ewa, Oliveira, Rui F.
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Sprache:eng
Schlagworte:
Aggression
Aggression - physiology
Animal behavior
Animals
Arginine vasotocin
Behavior, Animal - physiology
Brain - metabolism
Danio rerio
Dominance-Subordination
Fish
Genotype & phenotype
Hormones
Isotocin
Male
Males
Oxytocin - analogs & derivatives
Oxytocin - metabolism
Social Behavior
Social dominance
Social Environment
Stress
Teleostei
Vasotocin - metabolism
Zebrafish - physiology
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container_end_page 63
container_issue
container_start_page 57
container_title Hormones and behavior
container_volume 84
creator Teles, Magda C.
Gozdowska, Magdalena
Kalamarz-Kubiak, Hanna
Kulczykowska, Ewa
Oliveira, Rui F.
description The teleost fish nonapeptides, arginine vasotocin (AVT) and isotocin (IT), have been implicated in the regulation of social behavior. These peptides are expected to be involved in acute and transient changes in social context, in order to be efficient in modulating the expression of social behavior according to changes in the social environment. Here we tested the hypothesis that short-term social interactions are related to changes in the level of both nonapeptides across different brain regions. For this purpose we exposed male zebrafish to two types of social interactions: (1) real opponent interactions, from which a Winner and a Loser emerged; and (2) mirror-elicited interactions, that produced individuals that did not experience a change in social status despite expressing similar levels of aggressive behavior to those of participants in real-opponent fights. Non-interacting individuals were used as a reference group. Each social phenotype (i.e. Winners, Losers, Mirror-fighters) presented a specific brain profile of nonapeptides when compared to the reference group. Moreover, the comparison between the different social phenotypes allowed to address the specific aspects of the interaction (e.g. assessment of opponent aggressive behavior vs. self-assessment of expressed aggressive behavior) that are linked with neuropeptide responses. Overall, agonistic interactions seem to be more associated with the changes in brain AVT than IT, which highlights the preferential role of AVT in the regulation of aggressive behavior already described for other species. •Agonistic interactions generated 3 phenotypes: winners, losers and mirror-fighters.•Each social phenotype presented a specific brain profile of nonapeptides.•Overall, social phenotypes were more associated with changes in brain AVT than IT.•These results highlight the preferential role of AVT in zebrafish aggression.
doi_str_mv 10.1016/j.yhbeh.2016.05.020
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source MEDLINE; Elsevier ScienceDirect Journals Complete
subjects Aggression
Aggression - physiology
Animal behavior
Animals
Arginine vasotocin
Behavior, Animal - physiology
Brain - metabolism
Danio rerio
Dominance-Subordination
Fish
Genotype & phenotype
Hormones
Isotocin
Male
Males
Oxytocin - analogs & derivatives
Oxytocin - metabolism
Social Behavior
Social dominance
Social Environment
Stress
Teleostei
Vasotocin - metabolism
Zebrafish - physiology
title Agonistic interactions elicit rapid changes in brain nonapeptide levels in zebrafish
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