Targeting Mitochondrial Stress Responses: Terbinafine and Miglustat as Novel Lifespan and Healthspan Modulators.

Mitochondria are central to cellular homeostasis and play a critical role in aging and age-related disorders, making them promising therapeutical targets. Here, we identify terbinafine and miglustat as novel mitochondrial stress inducers that extend lifespan and improve healthspan(definition) in Caenorhabditis elegans. Through a two-step screening, we found that both compounds activate the mitochondrial stress response (MSR) and exhibit distinct mechanisms of action. Terbinafine and miglustat robustly activated the mitochondrial unfolded protein response (UPRmt) mediator ATFS-1, upregulated MSR pathways, and modulated mitochondrial function across species, similarly to doxycycline. Interestingly, both compounds also engaged the insulin/IGF-1 signaling (IIS) pathway in C. elegans, revealing an integrated stress response involving coordinated action of ATFS-1 and the FOXO transcription factor DAF-16, distinct from canonical IIS activation. Experiments in human HEK293T cells confirmed the translational potential, with both compounds inducing mitochondrial stress and modulating mitochondrial function in mammalian systems. This study highlights the potential of harnessing the MSR to promote longevity and mitigate age-related functional decline. The identification of terbinafine and miglustat as mitochondrial stressors paves the way for novel anti-aging therapies.