Large extension of C. elegans lifespan in diluted axenic medium: a balancing act between different survival responses.

Axenic dietary restriction (ADR) represents a powerful and unique DR regimen for C. elegans as it robustly extends lifespan independently of well-known key genes associated with DR, such as those of insulin/IGF-1 signaling, skn-1, and pha-4. Here, we analyze C. elegans survival in a dilution series of axenic medium to explore the dependency of lifespan extension on nutrient availability. We find a non-linear relationship between lifespan and axenic nutrient levels with a four-fold axenic dilution yielding peak longevity. Notably, lifespan extension at specific dilutions permits maintenance of reproductive potential and survivability after bacterial reintroduction, indicating a partial reliance on adult reproductive diapause mechanisms. Genetic analyses found the involvement of AMPK/aak-2, sir-2.1, and cbp-1 in mediating lifespan extension across the axenic dilution spectrum, the essential role of daf-16 and hlh-30 under severe nutrient scarcity, and the specific contribution of bli-4 to standard ADR longevity. These findings elucidate that C. elegans lifespan extension under different levels of nutrient restriction is governed by overlapping yet distinct genetic pathways.