Glutamine-driven mTORC1 activity enforces glycolytic bias, hyperactivation and aberrant proliferation in T cells in chronic B-cell leukemia
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T-cell metabolic dysfunction is increasingly recognized as a hallmark of poor antitumor responses. Still, how distinct metabolic states shape T-cell function and which signaling pathways sustain them remains unclear. Here, we show that T cells from patients with chronic lymphocytic leukemia (CLL) adopt a hyperactivated phenotype characterized by high cytokine production, aberrant proliferation and a bias toward glycolysis, supported by sustained glutamine-driven mTORC1 activity. In parallel, T cells from these patients display alterations in mitochondrial network and cristae architecture, which further limit oxidative phosphorylation. mTORC1 inhibition reduces glucose dependence, restores mitochondrial metabolic engagement and normalizes T-cell activation and proliferation.
Together, these findings identify metabolic disbalance as a central contributor to the hyperactivated state of T cells in CLL. We propose a model in which reduced OXPHOS reflects both mitochondrial defects that pre-exist in T cells from patients before TCR engagement, and a failure to engage mitochondrial metabolism upon activation supported by the actionable target mTORC1.
Highlights
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T cells from patients with chronic lymphocytic leukemia display high cytokine production and excessive division cycles upon CD3/28 engagement.
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mTORC1-sustained glycolysis and defects in mitochondrial structure compromise OXPHOS in hyperactivated T cells.
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Exogenous glutamine uptake sustains non-lysosomal mTORC1 activity in T cells.