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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

Role of the Monocarboxylate transporter 1 (MCT1) in T lymphocytes

D'Aria, Stefania 24 April 2020 (has links) (PDF)
Upon activation, T cells shift towards a metabolic program characterized by increased glucose metabolism in order to sustain proliferation and effector function. Surprisingly, while resting T lymphocytes degrade glucose aerobically to CO2, proliferating T cells metabolize glucose almostentirely to lactate in the presence of oxygen through aerobic glycolysis (the Warburg effect). This metabolic switch comprises the upregulation of glycolytic enzymes and glucose transporters to the cell membrane, leading to an increase of glycolytic flux and the concomitant production of lactate. Despite many decades of research, we still do not fully understand the mechanisms that make proliferating T cells choose glycolysis rather than oxidation of glucose to produce energy. Since activated T lymphocytes depend on a glycolytic metabolism, they must release lactate, which inthese cells is facilitated by the proton-linked monocarboxylate transporter MCT1. The transporter is part of a protein family of 14 members among which MCT1–4 facilitate the passive transmembrane transport of monocarboxylates such as lactate, pyruvate and ketone bodies. The observation that pharmacological MCT1 inhibition has shown anti-proliferative effect on T cells suggests that lactate transport is essential to T cell expansion triggered after antigen recognition. The aim of our research is to investigate the importance of MCT1-dependent regulation in T cellmetabolism. Following TCR stimulation, MCT1 was expressed early in T cells unlike MCT4 whose significant expression was detected at later time point. To investigate the role played by MCT1 in the early steps of T cell activation, we generated a transgenic mouse model where conditional deletion of the MCT1 gene was achieved specifically in T cells. Phenotype and T cell distribution in thymus and peripheral organs were normal in MCT1fl/fl CD4Cre mice. However, lack of MCT1 expression decreased the proliferative capacity of in vitro activated CD4+ or CD8+ T cells without altering their viability. We observed that the IL-2 production was also affected by the lack of MCT1 expression, in line with decreased proliferative ability. Moreover, in vivo, T cell expansion that followed antigenic stimulation as well as T cell-mediated immune response to infection were deficient in MCT1fl/flCD4Cre mice. Our data indicate that this situation resulted from a cellular energy shortage caused by reduced glycolytic activity soon after activation. Moreover, energy crisis was amplified by the necessity to use ATP-consuming mechanisms for excluding H+ protons from the cytosol of activated MCT1-deficient T cells. Thus, in T cells, early MCT1 expression after activation ensures an energy saving mechanism for regulating cytoplasm acidification. Our observations also indicate that a high glycolytic flux is required in dividing T cells to maintain pH homeostasis. / Doctorat en Sciences biomédicales et pharmaceutiques (Médecine) / info:eu-repo/semantics/nonPublished

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