Concept and connotation of the geroprotective and anti-aging effects of metformin: From AMPK Activation to SASP Suppression.

Biological aging is the risk factor underlying most of the chronic diseases of late life, such as cardiovascular disease, cancer, and neurodegeneration. Despite more than fifteen years of intensive research and the evaluation of hundreds of candidate compounds, no pharmacological therapy has yet been approved to target aging itself, leaving clinical medicine without an intervention that addresses the fundamental driver of multi-morbidity in older populations. It has been shown that the anti-diabetic metformin reduces mortality and the incidence of several age-related diseases in both diabetic and non-diabetic populations, independent of glycemic control. At standard therapeutic plasma concentrations achieved in aged human tissues, metformin engages multiple interconnected hallmarks of aging, such as activation of AMP-activated protein kinase (AMPK), inhibition of mechanistic target of rapamycin (mTOR) signaling, restoration of autophagy, modulation of other signaling pathways, improvement of mitochondrial function, and attenuation of senescence-associated inflammatory signaling. Large observational cohorts and meta-analyses further demonstrate that metformin use is associated with mechanistic plausibility, epidemiological consistency, and an unparalleled long-term safety record. Conversely, metformin may adversely affect the aging process when administered in aged animals, suggesting a controversial role of metformin effect on aging process. Nevertheless, the exact cellular and molecular mechanisms of the anti-aging role of metformin are not fully elucidated. Thus, this review integrates preclinical, epidemiological, and randomized clinical evidence supporting the role of metformin in aging to discuss and explain the possible anti-aging role of metformin.