Mitochondrial metabolism and epigenetic crosstalk drive the SASP

  1. Joao Passos
  2. Helene Martini
  3. Jodie Birch
  4. Francisco Marques
  5. Stella Victorelli
  6. Anthony Lagnado
  7. Nicholas Pirius
  8. Ana Franco
  9. Gung Lee
  10. Yeaeun Han
  11. Jennifer Rowsey
  12. Alexandre Gaspar-Maia
  13. Aaron Havas
  14. Rabi Murad
  15. Xue Lei
  16. Rebecca Porritt
  17. Oliver Maddocks
  18. Diana Jurk
  19. Sundeep Khosla
  20. Peter Adams
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Abstract

Senescent cells drive tissue dysfunction through the senescence-associated secretory phenotype (SASP). We uncovered a central role for mitochondria in the epigenetic regulation of the SASP, where mitochondrial-derived metabolites, specifically citrate and acetyl-CoA, fuel histone acetylation at SASP gene loci, promoting their expression. We identified the mitochondrial citrate carrier (SLC25A1) and ATP-citrate lyase (ACLY) as critical for this process. Inhibiting these pathways selectively suppresses SASP without affecting cell cycle arrest, highlighting their potential as therapeutic targets for age-related inflammation. Notably, SLC25A1 inhibition reduces systemic inflammation and extends healthspan in aged mice, establishing mitochondrial metabolism as pivotal to the epigenetic control of aging.

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  1. Version published to 10.21203/rs.3.rs-5278203/v1 on Research Square