Age- and Sex- Driven Transcriptional and Metabolic Diversity in Myeloid-Derived Suppressor Cells After Mouse Sepsis

  1. Christine Rodhouse
  2. Dayuan Wang
  3. Hongru Tang
  4. Valerie E Polcz
  5. Miguel Hernandez-Rios
  6. Xuanxuan Yu
  7. Leandro Balzano-Nogueira
  8. Jaimar C Rincon
  9. Angel Charles
  10. Seiichiro Fujishima
  11. Quan Vo
  12. Marvin LS Dirain
  13. Ricardo Ungaro
  14. Dina C Nacionales
  15. Leilani Zeumer-Spataro
  16. Larissa Langhi Prata
  17. Shawn Larson
  18. Gemma Casadesus
  19. Feifei Xiao
  20. Shannon M Wallet
  21. Maigan A Brusko
  22. Tyler Loftus
  23. Letitia Bible
  24. Alicia Mohr
  25. Paramita Chakrabarty
  26. Michael P Kladde
  27. Clayton Mathews
  28. Lyle L Moldawer
  29. Robert P Maile
  30. Guoshuai Cai
  31. Philip A Efron
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Abstract

Sepsis induces profound immune dysregulation, often resulting in chronic critical illness characterized by persistent immunosuppression and poor outcomes. Myeloid-derived suppressor cells (MDSCs) are central mediators of this immunosuppressive phenotype, yet the influence of age and sex on their transcriptional and metabolic states remain poorly understood. Here, we employed single-cell RNA sequencing of splenic leukocytes from young (3-4 months) and older (18-24 months) adult male and female mice subjected to a clinically relevant murine sepsis model to define age- and sex-specific MDSC phenotypes. We identified significant differences regarding age and sex in MDSC expansion, transcriptome, canonical pathway activation, RNA velocity, mitochondrial metabolism, and predicted cell-cell communication after sepsis. Using drug2cell analysis of total leukocytes we also identified cohort-specific drug target profiles. These findings underscore the importance of age and sex in shaping sepsis-induced MDSC biology and suggest that personalized immunomodulatory strategies targeting MDSCs could improve sepsis outcomes.

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