Human age reversal: Fact or fiction?
Adiv A JohnsonBradley W EnglishMaxim N ShokhirevDavid A SinclairTrinna L CuellarPublished in: Aging cell (2022)
Although chronological age correlates with various age-related diseases and conditions, it does not adequately reflect an individual's functional capacity, well-being, or mortality risk. In contrast, biological age provides information about overall health and indicates how rapidly or slowly a person is aging. Estimates of biological age are thought to be provided by aging clocks, which are computational models (e.g., elastic net) that use a set of inputs (e.g., DNA methylation sites) to make a prediction. In the past decade, aging clock studies have shown that several age-related diseases, social variables, and mental health conditions associate with an increase in predicted biological age relative to chronological age. This phenomenon of age acceleration is linked to a higher risk of premature mortality. More recent research has demonstrated that predicted biological age is sensitive to specific interventions. Human trials have reported that caloric restriction, a plant-based diet, lifestyle changes involving exercise, a drug regime including metformin, and vitamin D3 supplementation are all capable of slowing down or reversing an aging clock. Non-interventional studies have connected high-quality sleep, physical activity, a healthy diet, and other factors to age deceleration. Specific molecules have been associated with the reduction or reversal of predicted biological age, such as the antihypertensive drug doxazosin or the metabolite alpha-ketoglutarate. Although rigorous clinical trials are needed to validate these initial findings, existing data suggest that aging clocks are malleable in humans. Additional research is warranted to better understand these computational models and the clinical significance of lowering or reversing their outputs.
Keyphrases
- physical activity
- mental health
- dna methylation
- clinical trial
- healthcare
- blood pressure
- gene expression
- magnetic resonance
- randomized controlled trial
- emergency department
- weight loss
- computed tomography
- metabolic syndrome
- body composition
- high intensity
- resistance training
- electronic health record
- copy number
- climate change
- depressive symptoms
- sleep quality