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Different TCR-induced T lymphocyte responses are potentiated by stiffness with variable sensitivity.

ABSTRACT: T cells are mechanosensitive but the effect of stiffness on their functions is still debated. We characterize herein how human primary CD4+ T cell functions are affected by stiffness within the physiological Young's modulus range of 0.5 kPa to 100 kPa. Stiffness modulates T lymphocyte migration and morphological changes induced by TCR/CD3 triggering. Stiffness also increases TCR-induced immune system, metabolism and cell-cycle-related genes. Yet, upon TCR/CD3 stimulation, while cytokine production increases within a wide range of stiffness, from hundreds of Pa to hundreds of kPa, T cell metabolic properties and cell cycle progression are only increased by the highest stiffness tested (100 kPa). Finally, mechanical properties of adherent antigen-presenting cells modulate cytokine production by T cells. Together, these results reveal that T cells discriminate between the wide range of stiffness values found in the body and adapt their responses accordingly.

SUBMITTER: Saitakis M 

PROVIDER: S-EPMC5464771 | biostudies-literature | 2017 Jun

REPOSITORIES: biostudies-literature

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Different TCR-induced T lymphocyte responses are potentiated by stiffness with variable sensitivity.

Saitakis Michael M   Dogniaux Stéphanie S   Goudot Christel C   Bufi Nathalie N   Asnacios Sophie S   Maurin Mathieu M   Randriamampita Clotilde C   Asnacios Atef A   Hivroz Claire C  

eLife 20170608

T cells are mechanosensitive but the effect of stiffness on their functions is still debated. We characterize herein how human primary CD4<sup>+</sup> T cell functions are affected by stiffness within the physiological Young's modulus range of 0.5 kPa to 100 kPa. Stiffness modulates T lymphocyte migration and morphological changes induced by TCR/CD3 triggering. Stiffness also increases TCR-induced immune system, metabolism and cell-cycle-related genes. Yet, upon TCR/CD3 stimulation, while cytoki  ...[more]

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