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And those changes can persist months after the injury, according to researchers at McGill University.

Epigenetic changes may be caused by environmental factors, including diet, exposure to contaminants, and social conditions such as poverty—and may have a long-term effect on the activity of our genes.

The crucial difference between “genetic” and “epigenetic” causes for disease is that genetic changes are inherited and fixed, while epigenetic changes in contrast are possibly reversible.

The team at McGill has discovered a mechanism that embeds the memory of an injury in the way the DNA is marked in the brain by a chemical coating called methyl groups or DNA methylation. They report in the journal PLOS ONE that if the symptoms of chronic pain are attenuated, the abnormal changes in DNA methylation could be reversed.

Previous research at McGill has shown that experiences and not solely chemicals alter the way genes are marked epigenetically, affecting our behavior and well-being. DNA methylation, an epigenetic mark on the gene itself, can therefore serve as a “memory” of an experience that will alter the way the gene functions long after the original experience is gone.

The new study is the first to link chronic pain to genome-wide epigenetic changes in the brain.

“Injury results in long-term changes to the DNA markings in the brain; our work shows it might be possible to reverse the effects of chronic pain by interventions using either behavioral or pharmacological means that interfere with DNA methylation,” says Moshe Szyf, a professor in the Department of Pharmacology and Therapeutics, who co-led the study with Laura Stone, a professor at the Faculty of Dentistry.

“Our findings have the potential to completely alter the way we treat chronic pain.”

In this study, the researchers show that behavioral interventions that reverse chronic pain also remove differences in DNA methylation in the brain.

The team report alterations in global DNA methylation are observed in the prefrontal cortex (PFC) and amygdala of mice many months following injury to a nerve, and that environmental enrichment reduces both the pain and the pathological changes in PFC global methylation. They also found that the total amount of global methylation in the PFC significantly correlates with pain severity.

“These results suggest that epigenetic modulation mediates chronic pain-related alterations in the central nervous system (CNS), forming a ‘memory trace’ for pain in the brain that can be targeted therapeutically,” says Stone.

Since epigenetics respond to environmental changes, these mechanisms represent a mind-body link between chronic pain and the brain at the genomic level.

“The implications of this work are wide reaching and may alter the way we think about chronic pain diagnosis, research, and treatment,” adds Stone.

Source: McGill University