Sestrins as Biomarkers of Cellular Stress and Human Disease

Sestrins are an evolutionarily conserved family of stress-responsive proteins that regulate cellular metabolism, redox balance, and survival. Their expression is induced by diverse cellular stresses through activation of transcription factors such as p53, NRF2, and FOXO. Through antioxidant activity and modulation of mTORC1 and mTORC2 signalling, Sestrins limit the accumulation of reactive oxygen species, regulate metabolic pathways, and promote autophagy. In this review, we analyse published studies reporting SESN1, SESN2, and SESN3 expression in human tissues, circulation, and experimental disease models. The available evidence indicates that Sestrin levels are dynamically regulated across multiple pathologies, including metabolic, ageing, cardiovascular, inflammatory, neurodegenerative, and degenerative disorders. Notably, changes in tissue Sestrin expression are often mirrored in circulation. These observations suggest that Sestrins may serve as informative biomarkers of cellular stress and disease states, and that monitoring their expression in tissues or blood could provide insight into disease progression and therapeutic response.