Stefania Martin scite author profile

Metabolic programming controls immune cell lineages and functions, but little is known about γδ T cell metabolism. Here, we found that γδ T cell subsets making either interferon-γ (IFN-γ) or interleukin-17 (IL-17) have intrinsically distinct metabolic requirements. Whereas IFN-γ + γδ T cells were almost exclusively dependent on glycolysis, IL-17 + γδ T cells strongly engaged oxidative metabolism, with increased mitochondrial mass and activity. These distinct metabolic signatures were surprisingly imprinted early during thymic development, and were stably maintained in the periphery and within tumors. Moreover, pro-tumoral IL-17 + γδ T cells selectively showed high lipid uptake and intracellular lipid storage, and were expanded in obesity, and in tumors of obese mice. Conversely, glucose supplementation enhanced the anti-tumor functions of IFN-γ + γδ T cells and reduced tumor growth upon adoptive transfer. These findings have important implications for the differentiation of effector γδ T cells and their manipulation in cancer immunotherapy.

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Developmental origins of murine γδ T‐cell subsets

Sumaria

Martin

Pennington

2019

Immunology

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Murine cd T cells display diverse responses to pathogens and tumours through early provision of pro-inflammatory cytokines such as interleukin-17A (IL-17) and interferon-c (IFN-c). Although it is now clear that acquisition of these cytokine-secreting effector fates is to a great extent developmentally pre-programmed in the thymus, the stages through which cd progenitor cells transition, and the underlying mechanistic processes that govern these commitment events, are still largely unclear. Here, we review recent progress in the field, with particular consideration of how TCR-cd signalling impacts on developmental programmes initiated before TCR-cd expression.

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Constrained TCRγδ-associated Syk activity engages PI3K to facilitate thymic development of IL-17A–secreting γδ T cells

2021

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Murine γδ17 cells, which are T cells that bear the γδ T cell receptor (TCRγδ) and secrete interleukin-17A (IL-17A), are generated in the thymus and are critical for various immune responses. Although strong TCRγδ signals are required for the development of interferon-γ (IFN-γ)–secreting γδ cells (γδIFN cells), the generation of γδ17 cells requires weaker TCRγδ signaling. Here, we demonstrated that constrained activation of the kinase Syk downstream of TCRγδ was required for the thymic development of γδ17 cells. Increasing or decreasing Syk activity by stimulating TCRγδ or inhibiting Syk, respectively, substantially reduced γδ17 cell numbers. This delimited Syk activity optimally engaged the phosphoinositide 3-kinase (PI3K)–Akt signaling pathway, which maintained the expression of master regulators of the IL-17 program, RORγt and c-Maf. Inhibition of PI3K not only abrogated γδ17 cell development but also augmented the development of a distinct, previously undescribed subset of γδ T cells. These CD8+Ly6a+ γδ T cells had a type-I IFN gene expression signature and expanded in response to stimulation with IFN-β. Collectively, these studies elucidate how weaker TCRγδ signaling engages distinct signaling pathways to specify the γδ17 cell fate and identifies a role for type-I IFNs in γδ T cell development.

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Increased TCR signal strength in DN thymocytes promotes development of gut TCRαβ(+)CD8αα(+) intraepithelial lymphocytes

Grandjean

Sumaria

Martin

et al. 2017

Sci Rep

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CD4(+)CD8(+) “double positive” (DP) thymocytes differentiate into diverse αβ T cell sub-types using mechanistically distinct programs. For example, conventional αβ T cells develop from DP cells after partial-agonist T cell receptor (TCR) interactions with self-peptide/MHC, whereas unconventional αβ T cells, such as TCRαβ(+)CD8αα(+) intraepithelial lymphocytes (IELs), require full-agonist TCR interactions. Despite this, DP cells appear homogeneous, and it remains unclear how distinct TCR signalling instructs distinct developmental outcomes. Moreover, whether TCR signals at earlier stages of development, for example in CD4(−)CD8(−) double negative (DN) cells, impact on later fate decisions is presently unknown. Here, we assess four strains of mice that display altered TCR signal strength in DN cells, which correlates with altered generation of unconventional TCRαβ(+)CD8αα(+) IELs. FVB/n mice (compared to C57BL/6 animals) and mice with altered preTCRα (pTα) expression, both displayed weaker TCR signalling in DN cells, an inefficient DN-to-DP transition, and reduced contribution of TCRαβ(+)CD8αα(+) IELs to gut epithelium. Conversely, TCRαβ(+)CD8αα(+) IEL development was favoured in mice with increased TCR signal strength in DN cells. Collectively, these data suggest TCR signal strength in DN cells directly impacts on subsequent DP cell differentiation, fundamentally altering the potential of thymocyte progenitors to adopt conventional versus unconventional T cell fates.

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Peripheral T cell activation induces deletion of immature CD4+8+ thymocytes

Martin

Bevan

1997

Immunology Letters

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Stefania Martin

Distinct metabolic programs established in the thymus control effector functions of γδ T cell subsets in tumor microenvironments

Developmental origins of murine γδ T‐cell subsets

Constrained TCRγδ-associated Syk activity engages PI3K to facilitate thymic development of IL-17A–secreting γδ T cells

Increased TCR signal strength in DN thymocytes promotes development of gut TCRαβ(+)CD8αα(+) intraepithelial lymphocytes

Peripheral T cell activation induces deletion of immature CD4+8+ thymocytes

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