Intestinal Stem Cells from Patients with Inflammatory Bowel Disease Retain an Epigenetic Memory of Inflammation

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Intestinal stem cells derived from patients with inflammatory bowel disease maintain an epigenetic memory of inflammation, impacting their response to pro-inflammatory signals.

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The study investigated whether intestinal stem cells (derived as colonic organoids) from ulcerative colitis patients retain long-lasting epigenetic “memory” of prior inflammation, potentially explaining relapse at previously inflamed sites. Organoids were derived from both inflamed and uninflamed regions within the same UC patients and maintained in long-term culture, followed by chromatin accessibility profiling and functional re-challenge after inflammatory or injury stimuli. Compared with uninflamed-region organoids, prior-inflamed organoids showed thousands of unique accessible chromatin regions linked to stress response, repair, and inflammatory genes, remaining accessible yet largely not transcriptionally upregulated at baseline, consistent with a primed state; after re-challenge, they exhibited heightened transcriptional responses and faster wound closure despite reduced clonogenicity and impaired barrier function. The paper concludes that human ISCs retain chromatin-based inflammatory memory in the absence of immune cues, though this work is in UC organoids and does not directly test relapse in vivo. The paper does not explicitly discuss endometriosis or adenomyosis; it was included in the corpus via a keyword match in the upstream search index.

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Abstract

ABSTRACT Intestinal epithelial damage and impaired repair are hallmarks of ulcerative colitis (UC), even after inflammation resolves. Intestinal stem cells (ISCs) can retain stable epigenetic changes after inflammation, highlighting the potential for long-lived epithelial memory in the gut. Inflammatory injury in barrier tissues induces epigenetic memory in epithelial stem cells, and the tendency of UC to relapse at previously inflamed sites led us to hypothesize that ISCs from IBD patients acquire lasting memory of prior inflammation. To test this, we derived colonic organoids from inflamed and uninflamed regions of the same UC patients and propagated in long-term culture. Chromatin profiling revealed 2,252 accessible regions unique to prior-inflamed (PI) organoids, associated with stress response, repair, and inflammatory genes. Although these regions remained accessible, ∼95% of associated genes were not upregulated in PI organoids, indicating a primed state. Upon inflammatory or injury re-challenge, PI organoids exhibited heightened transcriptional responses and accelerated wound closure, despite reduced clonogenicity and impaired barrier function, indicating a retained inflammatory memory program. Our findings demonstrate that human ISCs retain a chromatin-based memory of inflammation that persists in the absence of immune cues and shapes future responses to injury. While this may support epithelial adaptation to secondary insults, it may predispose tissue to relapse in patients with UC.
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ABSTRACT Intestinal epithelial damage and impaired repair are hallmarks of ulcerative colitis (UC), even after inflammation resolves. Intestinal stem cells (ISCs) can retain stable epigenetic changes after inflammation, highlighting the potential for long-lived epithelial memory in the gut. Inflammatory injury in barrier tissues induces epigenetic memory in epithelial stem cells, and the tendency of UC to relapse at previously inflamed sites led us to hypothesize that ISCs from IBD patients acquire lasting memory of prior inflammation. To test this, we derived colonic organoids from inflamed and uninflamed regions of the same UC patients and propagated in long-term culture. Chromatin profiling revealed 2,252 accessible regions unique to prior-inflamed (PI) organoids, associated with stress response, repair, and inflammatory genes. Although these regions remained accessible, ∼95% of associated genes were not upregulated in PI organoids, indicating a primed state. Upon inflammatory or injury re-challenge, PI organoids exhibited heightened transcriptional responses and accelerated wound closure, despite reduced clonogenicity and impaired barrier function, indicating a retained inflammatory memory program. Our findings demonstrate that human ISCs retain a chromatin-based memory of inflammation that persists in the absence of immune cues and shapes future responses to injury. While this may support epithelial adaptation to secondary insults, it may predispose tissue to relapse in patients with UC. Competing Interest Statement The authors have declared no competing interest. Footnotes Conflict of interest: The authors have declared that no conflict of interest exists. We have updated the writing on the manuscript to expand the Introduction, edited Methods and updated the title.

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