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. 2025 Apr 1;37(4):870-885.e8.
doi: 10.1016/j.cmet.2024.12.007. Epub 2025 Jan 28.

Redirecting glucose flux during in vitro expansion generates epigenetically and metabolically superior T cells for cancer immunotherapy

Andrew T Frisch  1 Yiyang Wang  2 Bingxian Xie  1 Aaron Yang  3 B Rhodes Ford  3 Supriya Joshi  1 Katarzyna M Kedziora  4 Ronal Peralta  1 Drew Wilfahrt  1 Steven J Mullett  5 Kellie Spahr  1 Konstantinos Lontos  1 Jessica A Jana  1 Victoria G Dean  1 William G Gunn  1 Stacy Gelhaus  5 Amanda C Poholek  3 Dayana B Rivadeneira  1 Greg M Delgoffe  6
Affiliations

Redirecting glucose flux during in vitro expansion generates epigenetically and metabolically superior T cells for cancer immunotherapy

Andrew T Frisch et al. Cell Metab. .

Abstract

Cellular therapies are living drugs whose efficacy depends on persistence and survival. Expansion of therapeutic T cells employs hypermetabolic culture conditions to promote T cell expansion. We show that typical in vitro expansion conditions generate metabolically and functionally impaired T cells more reliant on aerobic glycolysis than those expanding in vivo. We used dichloroacetate (DCA) to modulate glycolytic metabolism during expansion, resulting in elevated mitochondrial capacity, stemness, and improved antitumor efficacy in murine T cell receptor (TCR)-Tg and human CAR-T cells. DCA-conditioned T cells surprisingly show no elevated intratumoral effector function but rather have improved engraftment. DCA conditioning decreases reliance on glucose, promoting usage of serum-prevalent physiologic carbon sources. Further, DCA conditioning promotes metabolic flux from mitochondria to chromatin, resulting in increased histone acetylation at key longevity genes. Thus, hyperglycemic culture conditions promote expansion at the expense of metabolic flexibility and suggest pharmacologic metabolic rewiring as a beneficial strategy for improvement of cellular immunotherapies.

Keywords: CAR-T; Immunometabolism; T cell; cell therapy; epigenetics; glucose; immunotherapy; longevity; metabolism; mitochondria.

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Conflict of interest statement

Declaration of interests A.T.F. and G.M.D. have filed patent applications around the use of DCA as a means of metabolically reprogramming cellular therapies during in vitro production.

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