Living long and living well: is it possible to do both?

MDI Biological Laboratory study concludes the relationship is more complex than previously believed.

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Exactly when does old age begin? Which health markers best predict who will live a long and healthy life versus a life spent in poor health?  

Developing metrics to help answer these questions and to understand the tradeoffs between lifespan and health span is the subject of a recent paper by MDI Biological Laboratory (ME, USA) scientists in Journals of Gerontology: Biological Sciences.  

The authors studied various parameters of health in short-lived strains of the roundworm, C. elegans, with the goal of developing an empirical definition of the onset of old age and teasing out which health markers are most predictive of a long and healthy life.    

With the development of new genetics tools, scientists are getting closer to developing therapies to extend human lifespan, but the effect of such therapies on health span (the proportion of life spent in good health) is unclear. While it used to be thought that therapies to extend lifespan would also extend health span, new research is showing that may not always be true.  

The growing number of anti-aging therapies on the horizon creates a need for the development of new parameters to assess healthy aging. Instead of striving to only to prolong longevity, as has been the case in the past, the use of such tools will allow scientists to focus their efforts on lifespan-enhancing therapies with the greatest positive effects on health.  

“All anti-aging interventions aren’t created equal,” said post-doctoral researcher Jarod Rollins, one of the study’s lead investigators. “A recent study in C. elegans found, for instance, that the proportion of life spent in a frail state is longer in long-lived mutants than in wild-type animals. Our research is aimed at developing tools to help scientists assess the effect of lifespan-enhancing interventions on health span.”  

Rollins works in the laboratory of Aric Rogers, the lead author of the study, in the institution’s Kathryn W. Davis Center for Regenerative Biology and Medicine.   

C. elegans is a popular model in aging research because its short lifespan of only two to three weeks allows scientists to quickly assess the effects of anti-aging interventions, including genetic manipulation and drug therapies. The tiny, soil-dwelling roundworm also has other advantages for research: it shares many of its genes with humans and its health markers roughly correspond to those in humans.  

One marker that the MDI Biological Laboratory scientists found to be predictive of a healthy lifespan in C. elegans was movement speed. Movement speed corresponds to walking speed in humans, which studies have found to be an accurate predictor of longevity. One of the scientists’ next steps will be to further develop movement speed as a marker for assessing the effect of anti-aging interventions in C. elegans.  

“As science closes in on the mechanisms underlying aging, the tradeoffs between lifespan and health span become a greater cause for concern,” said Kevin Strange, president, MDI Biological Laboratory. “The scientists in the Rogers laboratory are at the forefront of developing metrics to assess the impact of anti-aging interventions on quality of life.”  

In addition to Rollins and Rogers, authors of the study include Amber C. Howard, Sarah K. Dobbins and Elsie H. Washburn.  

The research was supported by grants to Rogers from the National Institute on Aging of the National Institutes of Health and the Ellison Medical Foundation, as well as by Institutional Development Awards from the National Institute of General Medical Sciences of the National Institutes of Health.

Source: Rollins JA, Howard AC, Dobbins SK, Washburn EH, Rogers AN. Assessing Health Span in Caenorhabditis elegans: Lessons From Short-Lived Mutants. J Gerontol A Biol Sci Med Sci. 1;72(4):473-480 (2017)

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