Commentary

Is there hope in the fight against aging?


 

For many years, it has been believed that the aging process is inevitable and that age-related diseases cannot be prevented or reversed. For example, the U.S. Food and Drug Administration does not recognize aging as an indication for drug approval because there are no markers to determine whether possible treatments have a significant impact on the hallmarks of aging.

The field of geroscience aims to find ways to change this by delaying the onset of age-related diseases or by extending the life span. On May 19, 2021, experts in geroscience met virtually at a symposium of the New York Academy of Sciences. Presentations and discussions with experts in the field showed that remarkable advances have been made in understanding the mechanisms underlying biological aging. Those mechanisms contribute to the vulnerability of older adults. The presentations focused on identifying biomarkers of aging and on the search for interventions to prevent and treat age-related diseases.

Perspectives from this meeting were published in a report.

An abridged glossary

  • Senescent cells: These are old cells with irreversibly damaged DNA; they strongly resist apoptosis. Thus, they are not eliminated and continue to secrete pathogenic proinflammatory molecules.
  • Senolytics: This is a class of compounds that promote the removal of senescent cells from the body.
  • Autophagy: This is a process that promotes protein degradation, which is attenuated with aging and that impedes the aggregation of proteins harmful to cell function, particularly those of the central nervous system.
  • Proteostasis: This is the dynamic regulation of protein homeostasis.
  • Epigenetics: This is the field of biology that studies phenotype changes that are not caused by changes in DNA sequencing and that continue to affect cellular division.
  • Metabolome: This refers to small molecules that make up the building blocks of all organismal features, from cell membranes to metabolic cycles to genes and proteins.
  • Translational research: This involves applying primary research results to clinical research and vice versa.

Possible research topics

Senescence not only occurs with age but also drives aging. At the meeting, evidence was provided that senescent cells may exacerbate the clinical course of older adults in cases of infections (for example, COVID-19) as they lead to cytokine storms.

Experiments on old mice that have undergone genetic modification of senescent cells or the administration of “senolytic cocktails” composed of dasatinib plus quercetin protected the animals from the effects of viral infections. This finding corroborates the idea that factors involved in biological aging increase vulnerability and could be modified through treatment.

Alzheimer’s disease is an example of the effects of cellular senescence. Senescent cells develop a senescence-associated secretory phenotype that can be toxic to neighboring healthy cells and can allow senescence to propagate within tissues. This effect makes Alzheimer’s disease an essential focal point when studying the use of senolytics. In addition, agents that stimulate autophagy may be of interest for treating degenerative diseases.

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