Stress, epigenetic remodeling and FKBP51: Pathways to chronic pain vulnerability

Oakley Morgan; Sam Singleton; Roxana Florea; Sara Hestehave; Tim Sarter; Eva Wozniak; Charles Mein; Felix Hausch; Christopher Bell; Sandrine Géranton

doi:10.1016/j.bbi.2025.106119

Stress, epigenetic remodeling and FKBP51: Pathways to chronic pain vulnerability

Oakley Morgan
, Sam Singleton (Lead / Corresponding author)
, Roxana Florea
, Sara Hestehave
, Tim Sarter
, Eva Wozniak
, Charles Mein
, Felix Hausch
, Christopher Bell
, Sandrine Géranton (Lead / Corresponding author)

Neuroscience

Research output: Contribution to journal › Article › peer-review

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Abstract

Chronic pain and post-traumatic stress disorder (PTSD) show striking similarities in their prevalence following injury and trauma respectively, with growing evidence suggesting shared vulnerability mechanisms, particularly through stress-related epigenetic regulation. The gene FK506 binding protein 5, FKBP5, is a critical regulator of the stress response which plays a well-established role in PTSD susceptibility and has recently emerged as a potential driver of chronic pain vulnerability. In our pre-clinical study, sub-chronic stress promoted the persistence of subsequent inflammation-induced primary hyperalgesia and accelerated the development of inflammation-driven anxiety in male and female mice. Global deletion of Fkbp5 reduced stress-induced vulnerability to persistent pain, with a more pronounced protective effect in males than in females. To investigate the mechanisms underlying FKBP51-driven persistent pain vulnerability, we analysed male spinal cord tissue after stress exposure and found hypomethylation in the Fkbp5 promoter site for the canonical FKBP51 transcript and other stress-related genes. However, most epigenetic changes in key regulatory regions did not correlate with changes in gene expression, suggesting that stress exposure had remodelled the epigenome without altering gene activity. FKBP51 pharmacological inhibition in males during stress exposure shortened the duration of subsequent inflammatory pain and reversed several stress-induced DNA methylation changes in promoter regions of genes associated with stress and nociception, but not Fkbp5. These results indicate that sub-chronic stress increases the susceptibility to chronic pain in an FKBP51-driven mechanism and leads to the hypomethylation of Fkbp5. However, reversing Fkbp5 hypomethylation is not necessary to prevent chronic pain vulnerability, which is likely driven by complex epigenetic regulation.

Original language	English
Article number	106119
Number of pages	13
Journal	Brain, Behavior, and Immunity
Volume	130
Early online date	23 Sept 2025
DOIs	https://doi.org/10.1016/j.bbi.2025.106119
Publication status	Published - Nov 2025

Keywords

Chronic pain
Stress
Vulnerability
Epigenetics
DNA methylation
Fkbp5

ASJC Scopus subject areas

Immunology
Endocrine and Autonomic Systems
Behavioral Neuroscience

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10.1016/j.bbi.2025.106119Licence: CC BY

Final Published VersionFinal published version, 7.06 MBLicence: CC BY

Cite this

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title = "Stress, epigenetic remodeling and FKBP51: Pathways to chronic pain vulnerability",

abstract = "Chronic pain and post-traumatic stress disorder (PTSD) show striking similarities in their prevalence following injury and trauma respectively, with growing evidence suggesting shared vulnerability mechanisms, particularly through stress-related epigenetic regulation. The gene FK506 binding protein 5, FKBP5, is a critical regulator of the stress response which plays a well-established role in PTSD susceptibility and has recently emerged as a potential driver of chronic pain vulnerability. In our pre-clinical study, sub-chronic stress promoted the persistence of subsequent inflammation-induced primary hyperalgesia and accelerated the development of inflammation-driven anxiety in male and female mice. Global deletion of Fkbp5 reduced stress-induced vulnerability to persistent pain, with a more pronounced protective effect in males than in females. To investigate the mechanisms underlying FKBP51-driven persistent pain vulnerability, we analysed male spinal cord tissue after stress exposure and found hypomethylation in the Fkbp5 promoter site for the canonical FKBP51 transcript and other stress-related genes. However, most epigenetic changes in key regulatory regions did not correlate with changes in gene expression, suggesting that stress exposure had remodelled the epigenome without altering gene activity. FKBP51 pharmacological inhibition in males during stress exposure shortened the duration of subsequent inflammatory pain and reversed several stress-induced DNA methylation changes in promoter regions of genes associated with stress and nociception, but not Fkbp5. These results indicate that sub-chronic stress increases the susceptibility to chronic pain in an FKBP51-driven mechanism and leads to the hypomethylation of Fkbp5. However, reversing Fkbp5 hypomethylation is not necessary to prevent chronic pain vulnerability, which is likely driven by complex epigenetic regulation. ",

keywords = "Chronic pain, Stress, Vulnerability, Epigenetics, DNA methylation, Fkbp5",

author = "Oakley Morgan and Sam Singleton and Roxana Florea and Sara Hestehave and Tim Sarter and Eva Wozniak and Charles Mein and Felix Hausch and Christopher Bell and Sandrine G{\'e}ranton",

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AU - Morgan, Oakley

AU - Singleton, Sam

AU - Florea, Roxana

AU - Hestehave, Sara

AU - Sarter, Tim

AU - Wozniak, Eva

AU - Mein, Charles

AU - Hausch, Felix

AU - Bell, Christopher

AU - Géranton, Sandrine

PY - 2025/11

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N2 - Chronic pain and post-traumatic stress disorder (PTSD) show striking similarities in their prevalence following injury and trauma respectively, with growing evidence suggesting shared vulnerability mechanisms, particularly through stress-related epigenetic regulation. The gene FK506 binding protein 5, FKBP5, is a critical regulator of the stress response which plays a well-established role in PTSD susceptibility and has recently emerged as a potential driver of chronic pain vulnerability. In our pre-clinical study, sub-chronic stress promoted the persistence of subsequent inflammation-induced primary hyperalgesia and accelerated the development of inflammation-driven anxiety in male and female mice. Global deletion of Fkbp5 reduced stress-induced vulnerability to persistent pain, with a more pronounced protective effect in males than in females. To investigate the mechanisms underlying FKBP51-driven persistent pain vulnerability, we analysed male spinal cord tissue after stress exposure and found hypomethylation in the Fkbp5 promoter site for the canonical FKBP51 transcript and other stress-related genes. However, most epigenetic changes in key regulatory regions did not correlate with changes in gene expression, suggesting that stress exposure had remodelled the epigenome without altering gene activity. FKBP51 pharmacological inhibition in males during stress exposure shortened the duration of subsequent inflammatory pain and reversed several stress-induced DNA methylation changes in promoter regions of genes associated with stress and nociception, but not Fkbp5. These results indicate that sub-chronic stress increases the susceptibility to chronic pain in an FKBP51-driven mechanism and leads to the hypomethylation of Fkbp5. However, reversing Fkbp5 hypomethylation is not necessary to prevent chronic pain vulnerability, which is likely driven by complex epigenetic regulation.

AB - Chronic pain and post-traumatic stress disorder (PTSD) show striking similarities in their prevalence following injury and trauma respectively, with growing evidence suggesting shared vulnerability mechanisms, particularly through stress-related epigenetic regulation. The gene FK506 binding protein 5, FKBP5, is a critical regulator of the stress response which plays a well-established role in PTSD susceptibility and has recently emerged as a potential driver of chronic pain vulnerability. In our pre-clinical study, sub-chronic stress promoted the persistence of subsequent inflammation-induced primary hyperalgesia and accelerated the development of inflammation-driven anxiety in male and female mice. Global deletion of Fkbp5 reduced stress-induced vulnerability to persistent pain, with a more pronounced protective effect in males than in females. To investigate the mechanisms underlying FKBP51-driven persistent pain vulnerability, we analysed male spinal cord tissue after stress exposure and found hypomethylation in the Fkbp5 promoter site for the canonical FKBP51 transcript and other stress-related genes. However, most epigenetic changes in key regulatory regions did not correlate with changes in gene expression, suggesting that stress exposure had remodelled the epigenome without altering gene activity. FKBP51 pharmacological inhibition in males during stress exposure shortened the duration of subsequent inflammatory pain and reversed several stress-induced DNA methylation changes in promoter regions of genes associated with stress and nociception, but not Fkbp5. These results indicate that sub-chronic stress increases the susceptibility to chronic pain in an FKBP51-driven mechanism and leads to the hypomethylation of Fkbp5. However, reversing Fkbp5 hypomethylation is not necessary to prevent chronic pain vulnerability, which is likely driven by complex epigenetic regulation.

KW - Chronic pain

KW - Stress

KW - Vulnerability

KW - Epigenetics

KW - DNA methylation

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JO - Brain, Behavior, and Immunity

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M1 - 106119

ER -

Stress, epigenetic remodeling and FKBP51: Pathways to chronic pain vulnerability

Abstract

Keywords

ASJC Scopus subject areas

Access to Document

Other files and links

Fingerprint

Consortium Against Pain InEquality (CAPE) - The Impact of Adverse Childhood Experiences on Chronic Pain and Responses to Treatment (Joint with University of Aberdeen, University of Edinburgh, University of Stirling and University College, London) (Advanced Pain Discovery Platform)

Cite this

Stress, epigenetic remodeling and FKBP51: Pathways to chronic pain vulnerability

Abstract

Keywords

ASJC Scopus subject areas

Access to Document

Other files and links

Fingerprint

Projects

Consortium Against Pain InEquality (CAPE) - The Impact of Adverse Childhood Experiences on Chronic Pain and Responses to Treatment (Joint with University of Aberdeen, University of Edinburgh, University of Stirling and University College, London) (Advanced Pain Discovery Platform)

Cite this