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  2. Citrate Compartmentalization Controls Calcium-Dependent Cytokine Production in Effector T Cells

Citrate Compartmentalization Controls Calcium-Dependent Cytokine Production in Effector T Cells

  • bioRxiv. 2026 Jun 12:2026.06.11.731694. doi: 10.64898/2026.06.11.731694.
Andrea L Cote Claire L McIntyre Joshua A Acklin Lillian R Delacruz Yunping Qiu Irwin J Kurland Alison E Ringel
Abstract

Cytokine production is a core function of effector T cells, yet the mechanisms that regulate cytokine output during an immune response remain incompletely understood. Here, we identify citrate compartmentalization as a cellular mechanism by which CD8 + T cells couple cytokine production to glucose availability. Under glucose-replete conditions, citrate transport from the mitochondria to the cytosol by the citrate carrier SLC25A1 suppresses calcium-dependent transcription factor activity in effector T cells. Either reducing glucose availability or blocking the exchange of citrate across the mitochondrial membrane raises free cytosolic calcium, thereby driving nuclear localization of Nuclear Factor of Activated T cells (NFAT)-family transcription factors and sustaining cytokine production. As a calcium-chelating metabolite, we show that citrate buffers free cytosolic calcium, thereby linking calcium-dependent signaling to mitochondrial fuel oxidation. We also identify signatures of this regulatory mechanism across hundreds of human Cancer cell lines, where there are negative associations between citrate-derived metabolites and calcium-dependent transcriptional programs, and within the spatial organization of human tumors. These findings identify cytosolic citrate as a broadly conserved metabolic rheostat coupling glucose availability to calcium signaling. By adding calcium signaling to the known functions regulated by SLC25A1, our work reveals a mechanism by which mitochondria adaptively tune cytokine expression and Other calcium-dependent programs in response to local metabolic conditions, such as nutrients that are available within a tissue or tumor.

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