Abstract
Surgery is an invasive procedure evoking acute inflammatory and immune responses that can influence risk for postoperative complications including cognitive dysfunction and delirium. Although the specific mechanisms driving these responses have not been well-characterized, they are hypothesized to involve the epigenetic regulation of gene expression. We quantified genome-wide levels of DNA methylation in peripheral blood mononuclear cells (PBMCs) longitudinally collected from a cohort of elderly patients undergoing major surgery, comparing samples collected at baseline to those collected immediately post-operatively and at discharge from hospital. We identified acute changes in measured DNA methylation at sites annotated to immune system genes, paralleling changes in serum-levels of markers including C-reactive protein (CRP) and Interleukin 6 (IL-6) measured in the same individuals. Many of the observed changes in measured DNA methylation were consistent across different types of major surgery, although there was notable heterogeneity between surgery types at certain loci. The acute changes in measured DNA methylation induced by surgery are relatively stable in the post-operative period, generally persisting until discharge from hospital. Our results highlight the dramatic alterations in gene regulation induced by invasive surgery, primarily reflecting upregulation of the immune system in response to trauma, wound healing and anaesthesia.
Highlights
Surgery is an invasive procedure that elicits dramatic challenges to normal regulatory and homeostatic processes in the body
San Diego, California) in DNA samples isolated from peripheral blood mononuclear cells (PBMCs) collected at three time-points: (i) immediately before surgery (baseline (BL)), (ii) in the morning of post-operative day 1 (POD1) and (iii) between post-operative day 4 and 7 (POD4/7) prior to discharge from hospital
Our analyses focused on identifying differentially methylated positions (DMPs) and regions (DMRs) reflecting acute changes induced by major surgery
Summary
Surgery is an invasive procedure that elicits dramatic challenges to normal regulatory and homeostatic processes in the body. Changes to the immunological milieu following major surgery are thought to mediate risk for a number of postoperative complications including nosocomial infections[4], and postoperative cognitive dysfunction and delirium[5]. The specific mechanisms driving these responses have not been well-characterized, they are hypothesized to involve the epigenetic regulation of gene expression[8]. Changes in DNA methylation have been reported to mediate postsurgical pain sensitivity[10] and response to anaesthesia[11,12] and opioids[13,14]. In this study we explored the hypothesis that immunological modulation following surgery is associated with acute changes in DNA methylation. Our study identifies dramatic shifts in DNA methylation in the vicinity of genes involved in immune regulation, with these changes being relatively stable across the post-operative period
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