Could brain training keep our cells younger?

By Dr Perla Kaliman

(Posted 27th June 2019)

In an experiment involving identical twins, who would age faster: the twin who is placed in a high-speed rocket and travels near the speed of light or the twin who remains earthbound?

While studying this dilemma known as “the twin paradox,” Albert Einstein guessed that the date of birth is not enough to know the biological age of a person. In 1918, within the framework of his theory of relativity, Einstein showed that when returning from his trip to the stars, the galactic twin would be younger than his sibling born on the same date and with the same DNA. What was unknown 100 years ago is that we don’t need a trip on a space shuttle to modulate our cell ageing. Current research shows that less than 25% of the variations in human longevity can be attributed to our inherited genetic information. It is now clear that the quality of ageing and longevity result from powerful interactions between genes, environment, lifestyle and experiences.

Objectively we can talk about chronological age and biological age. The chronological age is calculated from our date of birth, while the biological age can be measured on our chromosomes. And they do not always match. There are repetitive DNA structures at the end of the chromosomes, called telomeres, whose function is to protect the genetic material. They fulfill a similar task to that of the ends of the shoe laces, that is, to prevent the DNA from fraying and damaging. With age, as part of a natural process, the telomeres get shorter. When the telomeres are already too short to efficiently carry out their protective functions, the cells lose their capacity for division, a phenomenon that increases the risk of most chronic age-related diseases i.e. cardiovascular disease, metabolic syndrome. Conversely, numerous studies indicate that longer telomeres predict long-term health. It has also been proven that the cells of centenarian people who are in good health have telomere lengths that correspond to younger chronological ages.

Recent research suggests that lifestyle-related factors influence the rate of biological ageing (i.e. nutrition, stress, quality of sleep, physical activity, education, social environment). In the Silver Santé Study, part of our work aims to identify lifestyle factors that may influence the rate of biological ageing. In order to do this, we collected blood samples from all the participants at the beginning of the Age-Well clinical trial and we are now obtaining a second sample from all of them at the end of mental training interventions. Our hypothesis is that brain training activities such as meditation and foreign language-learning may help to slow down the pace of the biological ageing. We very much look forward to learning and sharing the results of our study that may contribute to revealing the molecular mechanisms of long-term brain training on healthy ageing and may help in the design of preventive strategies for age-related chronic diseases.

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