TY - JOUR
T1 - Could epigenetics help explain racial disparities in chronic pain?
AU - Aroke, Edwin N.
AU - Joseph, Paule V.
AU - Roy, Abhrarup
AU - Overstreet, Demario S.
AU - Tollefsbol, Trygve O.
AU - Vance, David E.
AU - Goodin, Burel R.
N1 - Funding Information:
The authors would like to thank Dr Joan Austin for her thoughtful comments and edits. The American Association of Nurse Anesthetists (AANA) Foundation Post-Doctoral Fellowship (2018-FS-4) provided support to ENA. The University of Alabama at Birmingham Health Services Research Training Program; T32HS013852 (DSO) and NIH/NIMHD Grant R01MD010441 (BRG) provided financial support for this research. The National Institutes of Nursing Research, Division of Intramural Research provided support to PVJ under award 1ZIANR000035-01. PVJ is supported by the National Institute of Nursing Research (1ZIANR000035-01), the Office of Workforce Diversity and the National Institutes of Health Distinguished Scholars Award, and by the Rockefeller University Heilbrunn Nurse Scholar Award. NIH Intramural Research Training Award supports AR. The National Institutes of Nursing Research, is an institute in the National Institutes of Health (NIH), US Department of Health and Human Services (DHHS), Bethesda, MD.
Publisher Copyright:
© 2019 Aroke et al.
PY - 2019
Y1 - 2019
N2 - African Americans disproportionately suffer more severe and debilitating morbidity from chronic pain than do non-Hispanic Whites. These differences may arise from differential exposure to psychosocial and environmental factors such as adverse childhood experiences, racial discrimination, low socioeconomic status, and depression, all of which have been associated with chronic stress and chronic pain. Race, as a social construct, makes it such that African Americans are more likely to experience different early life conditions, which may induce epigenetic changes that sustain racial differences in chronic pain. Epigenetics is one mechanism by which environmental factors such as childhood stress, racial discrimination, economic hardship, and depression can affect gene expression without altering the underlying genetic sequence. This article provides a narrative review of the literature on epigenetics as a mechanism by which differential environmental exposure could explain racial differences in chronic pain. Most studies of epigenetic changes in chronic pain examine DNA methylation. DNA methylation is altered in the glucocorticoid (stress response) receptor gene, NR3C1, which has been associated with depression, childhood stress, low socioeconomic status, and chronic pain. Similarly, DNA methylation patterns of immune cytokine genes have been associated with chronic stress states. Thus, DNA methylation changes may play an essential role in the epigenetic modulation of chronic pain in different races with a higher incidence of epigenetic alterations contributing to more severe and disabling chronic pain in African Americans.
AB - African Americans disproportionately suffer more severe and debilitating morbidity from chronic pain than do non-Hispanic Whites. These differences may arise from differential exposure to psychosocial and environmental factors such as adverse childhood experiences, racial discrimination, low socioeconomic status, and depression, all of which have been associated with chronic stress and chronic pain. Race, as a social construct, makes it such that African Americans are more likely to experience different early life conditions, which may induce epigenetic changes that sustain racial differences in chronic pain. Epigenetics is one mechanism by which environmental factors such as childhood stress, racial discrimination, economic hardship, and depression can affect gene expression without altering the underlying genetic sequence. This article provides a narrative review of the literature on epigenetics as a mechanism by which differential environmental exposure could explain racial differences in chronic pain. Most studies of epigenetic changes in chronic pain examine DNA methylation. DNA methylation is altered in the glucocorticoid (stress response) receptor gene, NR3C1, which has been associated with depression, childhood stress, low socioeconomic status, and chronic pain. Similarly, DNA methylation patterns of immune cytokine genes have been associated with chronic stress states. Thus, DNA methylation changes may play an essential role in the epigenetic modulation of chronic pain in different races with a higher incidence of epigenetic alterations contributing to more severe and disabling chronic pain in African Americans.
KW - Chronic pain
KW - DNA methylation
KW - Epigenetics
KW - Epigenomics
KW - Racial health disparities
KW - Stress
UR - http://www.scopus.com/inward/record.url?scp=85063505661&partnerID=8YFLogxK
U2 - 10.2147/JPR.S191848
DO - 10.2147/JPR.S191848
M3 - Review article
AN - SCOPUS:85063505661
SN - 1178-7090
VL - 12
SP - 701
EP - 710
JO - Journal of Pain Research
JF - Journal of Pain Research
ER -