Background <p>Inflammatory bowel disease (IBD) remains a significant clinical challenge with limited curative options. Adipose-derived mesenchymal stem cells (ADSCs) hold therapeutic promise, but their anti-inflammatory efficacy is often compromised by cellular senescence. This study investigates the role of lysine crotonylation (Kcr) in ADSCs senescence and explores its therapeutic potential.</p> Methods <p>We analyzed Pan-Kcr levels in senescent ADSCs and evaluated the effects of sodium crotonate (NaCr), a crotonyl-CoA precursor, on senescence, proliferation, and anti-inflammatory function. A murine colitis model was used to assess therapeutic efficacy. Molecular mechanisms focusing on ACSS2-mediated Kcr regulation and H3K9 crotonylation (H3K9cr) at the <i>ACSS2</i> promoter.</p> Results <p>Senescent ADSCs exhibited a marked decline in Pan-Kcr levels. NaCr treatment ameliorated senescence, enhanced proliferation, and improved anti-inflammatory capacity. ACSS2, a key regulator of Kcr, was downregulated in senescent ADSCs. Moreover, the anti-senescence effect of NaCr depended on ACSS2-mediated crotonylation. NaCr promoted H3K9cr modification at the <i>ACSS2</i> promoter, forming a positive feedback loop that elevated Kcr levels. Mechanistically, ACSS2-mediated Kcr suppressed the NF-κB pathway to delay ADSCs senescence.</p> Conclusion <p>Our findings reveal an epigenetic pathway (ACSS2-Kcr-H3K9cr) regulating ADSCs senescence and propose Kcr modulation as a novel strategy to enhance ADSC-based therapy for IBD.</p>

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ACSS2-mediated lysine crotonylation attenuates senescence and enhances the therapeutic efficacy of adipose-derived stem cells in inflammatory bowel disease

  • Ming Yuan,
  • Senmao Li,
  • Shaopeng Chen,
  • Minghui Zhu,
  • Runfeng Yu,
  • Junfeng Huang,
  • Guanzhan Liang,
  • Chi Zhang,
  • Xiaowen He,
  • Ping Lan,
  • Xianrui Wu

摘要

Background

Inflammatory bowel disease (IBD) remains a significant clinical challenge with limited curative options. Adipose-derived mesenchymal stem cells (ADSCs) hold therapeutic promise, but their anti-inflammatory efficacy is often compromised by cellular senescence. This study investigates the role of lysine crotonylation (Kcr) in ADSCs senescence and explores its therapeutic potential.

Methods

We analyzed Pan-Kcr levels in senescent ADSCs and evaluated the effects of sodium crotonate (NaCr), a crotonyl-CoA precursor, on senescence, proliferation, and anti-inflammatory function. A murine colitis model was used to assess therapeutic efficacy. Molecular mechanisms focusing on ACSS2-mediated Kcr regulation and H3K9 crotonylation (H3K9cr) at the ACSS2 promoter.

Results

Senescent ADSCs exhibited a marked decline in Pan-Kcr levels. NaCr treatment ameliorated senescence, enhanced proliferation, and improved anti-inflammatory capacity. ACSS2, a key regulator of Kcr, was downregulated in senescent ADSCs. Moreover, the anti-senescence effect of NaCr depended on ACSS2-mediated crotonylation. NaCr promoted H3K9cr modification at the ACSS2 promoter, forming a positive feedback loop that elevated Kcr levels. Mechanistically, ACSS2-mediated Kcr suppressed the NF-κB pathway to delay ADSCs senescence.

Conclusion

Our findings reveal an epigenetic pathway (ACSS2-Kcr-H3K9cr) regulating ADSCs senescence and propose Kcr modulation as a novel strategy to enhance ADSC-based therapy for IBD.