In addition to changing your waistline, consistent exercise can alter molecules in your body that influence the behavior of your genes, according to new research from Washington State University.
Research published in DNA and can impact gene expression without changing the actual DNA sequence. The more active twins also had epigenetic marks associated with a reduced risk of metabolic syndrome, a condition that can lead to heart disease, stroke, and type 2 diabetes.
Since identical twins have the same genetics, the study suggests that markers of metabolic disease are strongly influenced by how a person interacts with their environment as opposed to just their inherited genetics.
“The findings provide a molecular mechanism for the link between physical activity and metabolic disease,” said Michael Skinner, WSU biologist and the study’s corresponding author. “Physical exercise is known to reduce the susceptibility to obesity, but now it looks like exercise through epigenetics is affecting a lot of cell types, many of them involved in metabolic disease.”
The researchers collected cheek swabs of 70 pairs of identical twins who also participated in an exercise study through the Washington State Twin Registry. A team led by WSU Professor and Registry Director Glen Duncan collected data on the twins at several different points in time from 2012 to 2019. They used fitness trackers to measure physical activity and measured the participants’ waistlines and body mass indexes. The twins also answered survey questions about their lifestyles and neighborhoods.
Many of the twin pairs were found to be discordant, meaning they differed from each other, on measures of physical activity, neighborhood walkability, and body mass index.
An analysis by Skinner’s lab of the cells in the discordant twins’ cheek swabs revealed epigenetic differences too. The twin in the discordant pair with a high level of physical activity, defined as more than 150 minutes a week of exercise, had epigenetic alterations in areas called DNA methylation regions that correlated with reduced body mass index and waist circumference. Those regions are also associated with over fifty genes that have already been identified as specific to vigorous physical activity and metabolic risk factors.
Scientists have previously noted that the majority of identical twins develop different diseases as they get older even though they have the same genes. Epigenetics may help explain the reason why, said Skinner.
“If genetics and DNA sequence were the only drivers for biology, then essentially twins should have the same diseases. But they don’t,” said Skinner. “So that means there has to be an environmental impact on the twins that is driving the development of disease.”
Reference: “Epigenome-wide association study of physical activity and physiological parameters in discordant monozygotic twins” by Glen E. Duncan, Ally Avery, Jennifer L. M. Thorson, Eric E. Nilsson, Daniel Beck and Michael K. Skinner, 23 November 2022, Scientific Reports.
DOI: 10.1038/s41598-022-24642-3
The study was funded by the John Templeton Foundation and the National Institutes of Health.