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Social isolation negatively affects health, induces detrimental behaviors, and shortens lifespan in social species. Little is known about the mechanisms underpinning these effects because model species are typically short-lived and non-social. Using colonies of the carpenter ant Camponotus fellah, we show that social isolation induces hyperactivity, alters space-use, and reduces lifespan via changes in the expression of genes with key roles in oxidation-reduction and an associated accumulation of reactive oxygen species. These physiological effects are localized to the fat body and oenocytes, which perform liver-like functions in insects. We use pharmacological manipulations to demonstrate that the oxidation-reduction pathway causally underpins the detrimental effects of social isolation on behavior and lifespan. These findings have important implications for our understanding of how social isolation affects behavior and lifespan in general.|The mechanisms behind the negative effects of social isolation on social species are unclear. Here, the authors examine colonies of carpenter ants, finding that behavioral, physiological, and lifespan changes may be caused by oxidative stress.
Pierre Dillenbourg, Arzu Güneysu Özgür, Hala Khodr, Mehdi Akeddar
Maria del Carmen Sandi Perez, Bernard Schneider, Jocelin Grosse, Olivia Zanoletti, Simone Astori, Elias Georges Gebara, Marie-Isabelle Guillot de Suduiraut, Alessandro Chioino, Sriparna Ghosal, Eva Ramos Fernandez