Exercising hard and regularly can slow down the ageing process by about nine years, new research from Brigham Young University reveals.
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Exercising hard and regularly can slow down the ageing process by about nine years, new research from Brigham Young University reveals.
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“Just because you’re 40, doesn’t mean you’re 40 years old biologically,” exercise science professor Larry Tucker said. “We all know people that seem younger than their actual age. The more physically active we are, the less biological ageing takes place in our bodies.”
The study, published in the medical journal Preventive Medicine, finds that people who have consistently high levels of physical activity have significantly longer telomeres than those who have sedentary lifestyles, as well as those who are moderately active.
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Telomeres are the protein endcaps of our chromosomes. They’re like our biological clock and they’re extremely correlated with age; each time a cell replicates, we lose a tiny bit of the endcaps. Therefore, the older we get, the shorter our telomeres.
Tucker found adults with high physical activity levels have telomeres with a biological ageing advantage of nine years over those who are sedentary, and a seven-year advantage compared to those who are moderately active. To be highly active, women had to engage in 30 minutes of jogging per day (40 minutes for men), five days a week.
“If you want to see a real difference in slowing your biological ageing, it appears that a little exercise won’t cut it,” Tucker said. “You have to work out regularly at high levels.”
Tucker analysed data from 5,823 adults who participated in the CDC’s National Health and Nutrition Examination Survey, one of the few indexes that includes telomere length values for study subjects. The index also includes data for 62 activities participants might have engaged in over a 30-day window, which Tucker analysed to calculate levels of physical activity.
His study found the shortest telomeres came from sedentary people — they had 140 base pairs of DNA less at the end of their telomeres than highly active folks. Surprisingly, he also found there was no significant difference in telomere length between those with low or moderate physical activity and the sedentary people.
Although the exact mechanism for how exercise preserves telomeres is unknown, Tucker said it may be tied to inflammation and oxidative stress. Previous studies have shown telomere length is closely related to those two factors and it is known that exercise can suppress inflammation and oxidative stress over time.
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“We know that regular physical activity helps to reduce mortality and prolong life, and now we know part of that advantage may be due to the preservation of telomeres,” Tucker said.
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