Frontal neurons driving competitive behaviour and ecology of social groups

Frontal neurons driving competitive behaviour and ecology of social groups

Competitive interactions have a vital role in the ecology of most animal species 1 – 3 and powerfully influence the behaviour of groups 4 , 5 . To succeed, individuals must exert effort based on not only the resources available but also the social rank and behaviour of other group members 2 , 6 , 7...

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Bibliographic Details
Published in:Nature (London) Vol. 603; no. 7902; pp. 661 - 666
Main Authors: Li, S. William, Zeliger, Omer, Strahs, Leah, Báez-Mendoza, Raymundo, Johnson, Lance M., McDonald Wojciechowski, Aidan, Williams, Ziv M.
Format: Journal Article
Language:English
Published: London Nature Publishing Group UK 24-03-2022
Nature Publishing Group
Subjects:
42/109
631/378/2645/2646
631/378/2649/1409
Animal species
Animals
Competition
Competitive behavior
Competitive Behavior - physiology
Ecological effects
Ecology
Food
Foraging behavior
Frontal lobe
Group dynamics
Gyrus Cinguli - physiology
Humanities and Social Sciences
Influence
Mice
multidisciplinary
Neuromodulation
Neurons
Neurons - physiology
Science
Science (multidisciplinary)
Social Behavior
Social rank
Success
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Summary:Competitive interactions have a vital role in the ecology of most animal species 1 – 3 and powerfully influence the behaviour of groups 4 , 5 . To succeed, individuals must exert effort based on not only the resources available but also the social rank and behaviour of other group members 2 , 6 , 7 . The single-cellular mechanisms that precisely drive competitive interactions or the behaviour of social groups, however, remain poorly understood. Here we developed a naturalistic group paradigm in which large cohorts of mice competitively foraged for food as we wirelessly tracked neuronal activities across thousands of unique interactions. By following the collective behaviour of the groups, we found neurons in the anterior cingulate that adaptively represented the social rank of the animals in relation to others. Although social rank was closely behaviourally linked to success, these cells disambiguated the relative rank of the mice from their competitive behaviour, and incorporated information about the resources available, the environment, and past success of the mice to influence their decisions. Using multiclass models, we show how these neurons tracked other individuals within the group and accurately predicted upcoming success. Using neuromodulation techniques, we also show how the neurons conditionally influenced competitive effort—increasing the effort of the animals only when they were more dominant to their groupmates and decreasing it when they were subordinate—effects that were not observed in other frontal lobe areas. Together, these findings reveal cingulate neurons that serve to adaptively drive competitive interactions and a putative process that could intermediate the social and economic behaviour of groups. Wireless tracking of neuronal activity in social groups of mice identifies neurons in the anterior cingulate that hold representations of an animal’s social rank and can influence the competitive effort that the animal exerts.
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ISSN:0028-0836
1476-4687
DOI:10.1038/s41586-021-04000-5