Researchers find that while bats in the Myotis genus don’t produce telomerase, the enzyme that lengthens telomeres, they possess 21 telomere maintenance–related genes.
Endurance exercise and metabolism are linked to transcriptional activation of human telomeres, researchers propose.
July 27, 2016|
FLICKR, NIHWhen healthy individuals perform a cardiovascular workout, their muscles increase transcription of telomeres, according to a study published today (July 27) in Science Advances. The team also identifies a novel transcription factor that appears to promote telomere transcription and provides the first direct evidence that telomere transcription is linked to exercise and metabolism in people.
“The novelty and merit of this work is that the authors demonstrate, for the first time, that [telomere transcription] occurs in response to physical exercise in a physiological system—human muscle,” Claus Azzalin, who studies telomere transcription at ETH Zurich in Switzerland but was not involved in the work, wrote in an email to The Scientist.
“This is a new link between metabolism and telomeres,” said study coauthor Anabelle Decottignies of the de Duve Institute in Brussels, Belgium. “We were able to show that metabolism, in the form of exercise, can promote transcription at telomeres.”
Telomeres were thought to be transcriptionally silent until several years ago when researchers found that mammalian telomeres, including human ones, are readily transcribed into telomeric repeat–containing RNA (TERRA). These RNA molecules have been shown to associate with telomeres but whether and how TERRA can protect telomeres— the repetitive sequences at the ends of linear chromosomes that form a sort of aglet to protect the structures—or promote the lengthening of the ends of chromosomes is not yet fully understood.
“Finding new TERRA regulators is essential to decipher the multiple roles of this RNA,” noted Azzalin, one of the researchers who initially identified TERRA transcription.
Decottignies and colleagues first analyzed human telomeric sequences for potential transcription factor binding sites. The researchers identified a potential binding site for the transcription factor nuclear respiratory factor 1 (NRF1), then confirmed its ability to bind the ends of chromosomes in human cancer cell lines. Because NRF1 is activated when stores of ATP are depleted, as during exercise, the team next enlisted 10 young and healthy volunteers to a low- or high-intensity workout on a stationary bicycle for 45 minutes. The researchers took muscle biopsies and blood samples prior to, right after, and 2.5 hours after the exercise. TERRA levels were increased 2.5 hours after both the low and high intensity workouts and were highest after the high intensity exercise, the researchers found.
In both dividing human tumor cell lines and in non-dividing human muscle cells,
the team showed that an activating transcription factor, peroxisome proliferator–activated receptor g coactivator 1α (PGC-1α)—which regulates mitochondrial energy metabolism—promotes NRF1-dependent telomeric DNA transcription.
According to Decottignies, this is the first evidence that telomeres are transcribed in non-dividing human tissue. Exercise produces reactive oxidative species (ROS) that may damage telomeres. Her team is now addressing the hypothesis that the TERRA molecules produced from NRF1-dependent telomere transcription may act as scavenger molecules that react with the ROS, protecting the telomere itself from oxidation.
The work has potential implications for the role of telomere transcription in aging, according to Azzalin. “The implications of this work could be major since TERRA is a potential therapeutic target to promote healthy aging,” Azzalin wrote.
For Carol Greider of the Johns Hopkins Institute for Basic Biomedical Sciences, a corecipient of the 2009 Nobel Prize in Physiology or Medicine for the discovery of telomerase, many questions remain on the role of TERRA at telomeres including its actual biological effects.
“This is a correlative study that suggests NRF1 transcription factor modulates levels of TERRA in human cells,” Greider wrote in an email to The Scientist. “As it is not yet established what role TERRA plays at mammalian telomeres, it is premature to speculate on the effect of NRF1 and TERRA upregulation in exercise on telomere biology or aging,” she added.
A. Diman et al., “Nuclear respiratory factor 1 and endurance exercise promote human telomere transcription,” Science Advances, doi:10.1126/sciadv.1600031, 2016.
August 16, 2016
old joke: exercise will make you live longer, but all your extra time will be spent exercising! anyway, not really interested in 'healthy aging', but in stopping the aging process. hopefully we will get more clues. good luck.
August 16, 2016
old joke: exercise will make you live longer, but all your extra time will be spent exercising! anyway, not really interested in 'healthy aging', but in stopping the aging process completely. target: live forever in the healthy body of a 20-year old. hopefully we will get more clues. good luck.