Scientists Identify a “DNA Clock” That May Help Predict Mortality

New studies on changes to DNA that occur over a lifetime offer insight into an individual’s likelihood of early death


What does it mean to get old? A person might be long in years, but feel like she did when she was young. Or he might be young, but feel like life has weathered him years beyond his official age. While years since birth is a simple, objective measure of lifespan, it doesn't say much about what those years have done to a person's body. But scientists have been searching for a biological measure of age—one that might hint how much longer a person has to live. And thanks to a scientific collaboration led by researchers at the University of Edinburgh, we’re now one step closer to understanding the mysteries of aging and longevity.

The recently published research involved studies of over 5,000 people, and it zeroed in on progressive chemical changes that occur in DNA throughout a person's life. By studying these changes, scientists were able to predict a “biological clock age”—a person’s predicted age, as indicated by the state of their genes—and compare it to their actual age.

The studies from which this data was drawn followed their subjects for up to 14 years, and when the researchers looked at both biological age and longevity, they found a telling correlation. "People whose biological age was greater than their true age were more likely to die sooner than those whose biological and actual ages were the same,” says the University of Edinburgh.

Even when elements like certain chronic illnesses and tobacco consumption and were factored in, the link between a faster “DNA clock” and an earlier death remained.

Participants’ biological age was determined by studying DNA methylation, a chemical modification that plays an important role in growth and development and can affect the functioning of certain genes, according to Genetic Engineering & Biotechnology News. The data was gathered from four independent studies in which “[e]ach person's biological age was measured from a blood sample at the outset, and participants were followed up throughout the study,” Science Direct writes.

While the study shows that scientists may soon be able to better predict whether we are more likely to die early, we’re still a ways off from using biological age to determine the exact time or cause of death. We also still don’t know exactly what factors cause our biological clock to age or if lifestyle or genetic changes may be able to influence the process. Yet one of the study’s lead authors, Dr. Roccardo Marioni says that follow-up projects are planned to further investigate such questions.

"This new research increases our understanding of longevity and healthy aging,” said the study's principal investigator, Professor Ian Deary. “It is exciting as it has identified a novel indicator of aging, which improves the prediction of lifespan over and above the contribution of factors such as smoking, diabetes, and cardiovascular disease."

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