Targeting pyruvate metabolism generates distinct CD8+ T cell responses to gammaherpesvirus and B lymphoma
Taewook Kang, Young-Kwang Usherwood, Julie A. Reisz, Sukrut C. Kamerkar, Rachel Culp-Hill, Owen M. Wilkins, Andreia F. Verissimo, Fred W. Kolling IV, Anton M. Hung, Shawn C. Musial, Pamela C. Rosato, Angelo D’Alessandro, Henry N. Higgs, Edward J. Usherwood
Taewook Kang, Young-Kwang Usherwood, Julie A. Reisz, Sukrut C. Kamerkar, Rachel Culp-Hill, Owen M. Wilkins, Andreia F. Verissimo, Fred W. Kolling IV, Anton M. Hung, Shawn C. Musial, Pamela C. Rosato, Angelo D’Alessandro, Henry N. Higgs, Edward J. Usherwood
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Research Article Immunology Metabolism

Targeting pyruvate metabolism generates distinct CD8+ T cell responses to gammaherpesvirus and B lymphoma

Abstract

T cells rely on different metabolic pathways to differentiate into effector or memory cells, and metabolic intervention is a promising strategy to optimize T cell function for immunotherapy. Pyruvate dehydrogenase (PDH) is a nexus between glycolytic and mitochondrial metabolism, regulating pyruvate conversion to either lactate or acetyl-CoA. Here, we retrovirally transduced pyruvate dehydrogenase kinase 1 (PDK1) or pyruvate dehydrogenase phosphatase 1 (PDP1), which control PDH activity, into CD8+ T cells to test effects on T cell function. Although PDK1 and PDP1 were expected to influence PDH in opposing directions, by several criteria they induced similar changes relative to control T cells. Seahorse metabolic flux assays showed both groups exhibited increased glycolysis and oxidative phosphorylation. Both groups had improved primary and memory recall responses following infection with murine gammaherpesvirus-68. However, metabolomics using labeled fuels indicated differential usage of key fuels by metabolic pathways. Importantly, CD8+ T cell populations after B cell lymphoma challenge were smaller in both groups, resulting in poorer protection, which was rescued by glutamine and acetate supplementation. Overall, this study indicates that PDK1 and PDP1 both enhance metabolic capacity, but the context of the antigenic challenge significantly influences the consequences for T cell function.

Authors

Taewook Kang, Young-Kwang Usherwood, Julie A. Reisz, Sukrut C. Kamerkar, Rachel Culp-Hill, Owen M. Wilkins, Andreia F. Verissimo, Fred W. Kolling IV, Anton M. Hung, Shawn C. Musial, Pamela C. Rosato, Angelo D’Alessandro, Henry N. Higgs, Edward J. Usherwood

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Figure 9

Glutamine and fatty acid supplementation improves tumor protection with engineered OT-I T cells.

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Glutamine and fatty acid supplementation improves tumor protection with ...
Using the same EμMyc-OVA mice as described in Figure 8, (A) glutamine (200 mg/kg) and sodium acetate (1 g/kg) were intraperitoneally delivered into tumor-bearing mice for glutamine and fatty acid supplementation. Supplementation was given daily from day 4 to the endpoints. (B) Kaplan-Meier survival analysis of the tumor-bearing mice with nutrient supplementation showed enhancement of T cell protective capacity in PDK1 (P = 0.5964 Mantel-Cox log-rank test) and PDP1 (P = 0.2393) groups compared with EV. (C) In vivo IVIS imaging of mouse tumors over the course of 36 days. Results were pooled from 2 independent experiments. N = 10 (no OT-I control) or N = 15 mice per group.