Focus on senescence: Clinical significance and practical applications.
Virginia BoccardiMiranda Ethel OrrM Cristina PolidoriCarmelinda RuggieroPatrizia MecocciPublished in: Journal of internal medicine (2024)
The older population is increasing worldwide, and life expectancy is continuously rising, predominantly thanks to medical and technological progress. Healthspan refers to the number of years an individual can live in good health. From a gerontological viewpoint, the mission is to extend the life spent in good health, promoting well-being and minimizing the impact of aging-related diseases to slow the aging process. Biologically, aging is a malleable process characterized by an intra- and inter-individual heterogeneous and dynamic balance between accumulating damage and repair mechanisms. Cellular senescence is a key component of this process, with senescent cells accumulating in different tissues and organs, leading to aging and age-related disease susceptibility over time. Removing senescent cells from the body or slowing down the burden rate has been proposed as an efficient way to reduce age-dependent deterioration. In animal models, senotherapeutic molecules can extend life expectancy and lifespan by either senolytic or senomorphic activity. Much research shows that dietary and physical activity-driven lifestyle interventions protect against senescence. This narrative review aims to summarize the current knowledge on targeting senescent cells to reduce the risk of age-related disease in animal models and their translational potential for humans. We focused on studies that have examined the potential role of senotherapeutics in slowing the aging process and modifying age-related disease burdens. The review concludes with a general discussion of the mechanisms underlying this unique trajectory and its implications for future research.
Keyphrases
- physical activity
- healthcare
- induced apoptosis
- public health
- dna damage
- cell cycle arrest
- endothelial cells
- mental health
- human health
- metabolic syndrome
- body mass index
- gene expression
- endoplasmic reticulum stress
- stress induced
- type diabetes
- middle aged
- health promotion
- cancer therapy
- depressive symptoms
- african american
- climate change
- sleep quality
- pi k akt