Overlapping Signatures of Chronic Pain in the DNA Methylation Landscape of Prefrontal Cortex and Peripheral T Cells

Authors

Renaud Massart, McGill University
Sergiy Dymov, McGill University
Magali Millecamps, McGill University
Matthew Suderman, McGill University
Stephanie Gregoire, McGill University
Kevin Koenigs, McGill University
Sebastian Alvarado, McGill University
Maral Tajerian, CUNY Queens CollegeFollow
Laura S. Stone, McGill UniversityFollow
Moshe Szyf, McGill UniversityFollow

Document Type

Article

Publication Date

2016

Abstract

We tested the hypothesis that epigenetic mechanisms in the brain and the immune system are associated with chronic pain. Genome-wide DNA methylation assessed in 9 months post nerve-injury (SNI) and Sham rats, in the prefrontal cortex (PFC) as well as in T cells revealed a vast difference in the DNA methylation landscape in the brain between the groups and a remarkable overlap (72%) between differentially methylated probes in T cells and prefrontal cortex. DNA methylation states in the PFC showed robust correlation with pain score of animals in several genes involved in pain. Finally, only 11 differentially methylated probes in T cells were sufficient to distinguish SNI or Sham individual rats. This study supports the plausibility of DNA methylation involvement in chronic pain and demonstrates the potential feasibility of DNA methylation markers in T cells as noninvasive biomarkers of chronic pain susceptibility.

Comments

Originally published as: Massart, Renaud, Sergiy Dymov, Magali Millecamps, Matthew Suderman, Stephanie Gregoire, Kevin Koenigs, Sebastian Alvarado, Maral Tajerian, Laura S. Stone, & Moshe Szyf. "Overlapping Signatures of Chronic Pain in the DNA Methylation Landscape of Prefrontal Cortex and Peripheral T Cells." Scientific Reports, 2016. PMC4730199

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