Fiche publication
Date publication
octobre 2025
Journal
Molecular ecology
Auteurs
Membres identifiés du Cancéropôle Est :
Dr HEINTZ Dimitri
,
Dr VILLETTE Claire
Tous les auteurs :
Kervella M, Bertile F, Granger-Farbos A, Pinson B, Villette C, Heintz D, Schmitt A, Quque M, Bouillaud F, Criscuolo F
Lien Pubmed
Résumé
Within the same species of eusocial insects, individuals of different castes typically display widely different life-history traits: sterile workers live for a few months, while queens can live for decades. Ageing theories emphasise the importance of metabolism and oxidative stress in explaining longevity, with mitochondrial bioenergetics standing at the crossroads of energy and reactive oxygen species production. The study of mitochondrial functioning is therefore of great relevance in determining the nature of the mechanisms that explain the contrasting longevities between insect social castes. We addressed this question in the eusocial black garden ant Lasius niger. Our findings reveal that caste differences in mitochondrial bioenergetics and the oxidative balance only partially align with oxidative stress theory predictions. Long-lived queens display lower metabolic rates and mitochondrial density, yet maintain higher cellular energy availability, as reflected by a high adenylate energy charge (AEC). This may result from enhanced mitochondrial maintenance processes and potentially a specific recourse to the purine salvage pathway, promoting ATP availability while limiting oxidative cost. Our study highlights so far unrevealed bioenergetic adaptations that might contribute to the queens' remarkable lifespan.
Mots clés
calorimetry, metabolism, mitochondria, oxidative stress theory of ageing, purine pathway, social insects, somatic maintenance
Référence
Mol Ecol. 2025 10 10;:e70127
