Defined metabolic states shape T cell fate and function across culture conditions
Kayla Sylvester, Natasha Karassina, Anthony C. Lauer, Gediminas Vidugiris, Jolanta Vidugiriene

TL;DR
This study shows how different culture conditions shape T cell metabolism, affecting their growth and function, with implications for improving T cell therapies.
Contribution
A low-input bioluminescent assay platform was developed to profile T cell metabolic states and their functional outcomes under various culture conditions.
Findings
ICXF with TransAct promotes a glycolytic, NAD-rich T cell phenotype linked to rapid expansion.
TexMACS with ImmunoCult supports oxidative metabolism and enhances cytotoxicity despite slower growth.
Early lactate levels strongly predict downstream T cell expansion (r = 0.68, p < 0.0001).
Abstract
T cell metabolism is a key determinant of immune function and therapeutic efficacy, yet current expansion protocols often neglect how culture conditions influence metabolic programming. We employed a modular, low-input bioluminescent assay platform to profile how media, activation strength, and metabolic perturbation define metabolic trajectories that persist through early expansion and influence downstream outcomes. A multifactorial experimental design was used to evaluate early T-cell activation across media (ICXF, TexMACS, RPMI+FBS) and activators (TransAct, Dynabeads, ImmunoCult). Low-input bioluminescent assays were used to quantify metabolic cofactors (ATP, NAD+, NADP(H)), reducing capacity, and nutrient usage (glucose, lactate, malate). Conditions that yield metabolically distinct phenotypes were selected for deeper analysis of proliferation, cytokine secretion, cytotoxicity,…
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Taxonomy
TopicsViral Infectious Diseases and Gene Expression in Insects · CAR-T cell therapy research · T-cell and B-cell Immunology
