Fiche publication
Date publication
juillet 2025
Journal
Cell systems
Auteurs
Membres identifiés du Cancéropôle Est :
Dr CHARVIN Gilles
Tous les auteurs :
Jacquel B, Kavčič B, Aspert T, Matifas A, Kuehn A, Zhuravlev A, Byckov E, Morgan B, Julou T, Charvin G
Lien Pubmed
Résumé
Physiological adaptation to environmental stress involves distinct molecular responses leading to either stress resistance, which maintains proliferation by degrading the stressor's effects, or tolerance, which prioritizes survival over proliferation. While these strategies are complementary, their coordination remains unclear. Using microfluidics and live-cell imaging, we investigated the genetic basis of their interplay during the response to hydrogen peroxide (HO) in budding yeast. We found that deleting zwf1Δ, which controls NADPH synthesis via the pentose phosphate pathway (PPP), reduced resistance but unexpectedly enhanced tolerance to HO. This trade-off was further characterized through genetic and environmental interventions and found to be conserved in bacteria. Our results support a model in which redox signaling shifts cells to a nutrient-dependent tolerant state via protein kinase A inhibition when the HO homeostatic response is overwhelmed. This framework could inform synergistic therapies targeting resistance and tolerance to prevent drug escape and disease relapse. A record of this paper's transparent peer review process is included in the supplemental information.
Mots clés
cell fate decision-making, cell proliferation, hydrogen peroxide, microfluidics, stress homeostasis, stress resistance, stress tolerance
Référence
Cell Syst. 2025 07 16;16(7):101320
