Aeolian particle flux profiles and transport unsteadiness

The production of cytokines such as interferon-γ and interleukin 17 by αβ and γδ T cells influences the outcome of immune responses. Here we show that most γδ T lymphocytes expressed the tumor necrosis factor receptor family member CD27 and secreted interferon-γ, whereas interleukin 17 production was restricted to CD27- γδ T cells. In contrast to the apparent plasticity of αβ T cells, the cytokine profiles of these distinct γδ T cell subsets were essentially stable, even during infection. These phenotypes were established during thymic development, when CD27 functions as a regulator of the differentiation of γδ T cells at least in part by inducing expression of the lymphotoxin-β receptor and genes associated with trans-conditioning and interferon-γ production. Thus, the cytokine profiles of peripheral γδ T cells are predetermined mainly by a mechanism involving CD27.

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γδ T cells in tissue physiology and surveillance

Ribot

2020

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IL-17+ γδ T cells as kick-starters of inflammation

2017

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Shortly after the discovery of interleukin 17 (IL-17)-producing CD4 helper T cells (T17 cells), it was found that γδ T cells can also secrete large amounts of this pro-inflammatory cytokine. A decade later, it is now known that IL-17 γδ T cells (γδ17 T cells) are often the main providers of IL-17A in various models of inflammatory diseases, while they also contribute to protective immune responses to infectious organisms. Due to an intricate thymic program of differentiation, γδ17 T cells are able to respond faster than T17 cells do and thus predominate in the early stages of inflammatory responses. Here we review the current knowledge of the development, activation and pathophysiological functions of γδ17 T cells, aiming to increase the awareness in the community of the therapeutic potential of this 'other side' of IL-17-mediated immune responses.

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Meningeal γδ T cell–derived IL-17 controls synaptic plasticity and short-term memory

et al. 2019

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The notion of "immune privilege" of the brain has been revised to accommodate its infiltration, at steady state, by immune cells that participate in normal neurophysiology. However, the immune mechanisms that regulate learning and memory remain poorly understood. Here we show that noninflammatory IL-17 derived from a previously unknown foetal-derived meningeal-resident γδ T cell subset promotes cognition. When tested in classical spatial learning paradigms, mice lacking γδ T cells or IL-17 displayed deficient short-term memory, while retaining long-term memory.

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Julie C. Ribot

CD27 is a thymic determinant of the balance between interferon-γ- and interleukin 17–producing γδ T cell subsets

γδ T cells in tissue physiology and surveillance

IL-17+ γδ T cells as kick-starters of inflammation

Meningeal γδ T cell–derived IL-17 controls synaptic plasticity and short-term memory

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