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Literature DB >> 30232291

Antioxidant metabolism regulates CD8+ T memory stem cell formation and antitumor immunity.

Karolina Pilipow¹, Eloise Scamardella¹, Simone Puccio¹, Sanjivan Gautam², Federica De Paoli¹, Emilia Mc Mazza¹, Gabriele De Simone¹, Sara Polletti³, Marta Buccilli¹, Veronica Zanon¹, Pietro Di Lucia⁴, Matteo Iannacone⁴, Luca Gattinoni², Enrico Lugli^1,5.

Abstract

Adoptive T cell transfer (ACT) immunotherapy benefits from early differentiated stem cell memory T (Tscm) cells capable of persisting in the long term and generating potent antitumor effectors. Due to their paucity ex vivo, Tscm cells can be derived from naive precursors, but the molecular signals at the basis of Tscm cell generation are ill-defined. We found that less differentiated human circulating CD8+ T cells display substantial antioxidant capacity ex vivo compared with more differentiated central and effector memory T cells. Limiting ROS metabolism with antioxidants during naive T cell activation hindered terminal differentiation, while allowing expansion and generation of Tscm cells. N-acetylcysteine (NAC), the most effective molecule in this regard, induced transcriptional and metabolic programs characteristic of self-renewing memory T cells. Upon ACT, NAC-generated Tscm cells established long-term memory in vivo and exerted more potent antitumor immunity in a xenogeneic model when redirected with CD19-specific CAR, highlighting the translational relevance of NAC as a simple and inexpensive method to improve ACT.

Entities: Chemical Disease Gene Species

Keywords: Cancer immunotherapy; Cellular immune response; Immunology; T cells

Mesh：

Substances：

Year: 2018 PMID： 30232291 PMCID： PMC6237218 DOI： 10.1172/jci.insight.122299

Source DB: PubMed Journal: JCI Insight ISSN： 2379-3708

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