Reactive oxygen species: involvement in T cell signaling and metabolism
DG Franchina, C Dostert, D Brenner - Trends in immunology, 2018 - cell.com
DG Franchina, C Dostert, D Brenner
Trends in immunology, 2018•cell.comT cells are a central component of defenses against pathogens and tumors. Their effector
functions are sustained by specific metabolic changes that occur upon activation, and these
have been the focus of renewed interest. Energy production inevitably generates unwanted
products, namely reactive oxygen species (ROS), which have long been known to trigger
cell death. However, there is now evidence that ROS also act as intracellular signaling
molecules both in steady-state and upon antigen recognition. The levels and localization of …
functions are sustained by specific metabolic changes that occur upon activation, and these
have been the focus of renewed interest. Energy production inevitably generates unwanted
products, namely reactive oxygen species (ROS), which have long been known to trigger
cell death. However, there is now evidence that ROS also act as intracellular signaling
molecules both in steady-state and upon antigen recognition. The levels and localization of …
T cells are a central component of defenses against pathogens and tumors. Their effector functions are sustained by specific metabolic changes that occur upon activation, and these have been the focus of renewed interest. Energy production inevitably generates unwanted products, namely reactive oxygen species (ROS), which have long been known to trigger cell death. However, there is now evidence that ROS also act as intracellular signaling molecules both in steady-state and upon antigen recognition. The levels and localization of ROS contribute to the redox modeling of effector proteins and transcription factors, influencing the outcome of the T cell response. We discuss here how ROS can directly fine-tune metabolism and effector functions of T cells.
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