Regulation of immune cells by local-tissue oxygen tension: HIF1α and adenosine receptors

M Sitkovsky, D Lukashev - Nature Reviews Immunology, 2005 - nature.com
M Sitkovsky, D Lukashev
Nature Reviews Immunology, 2005nature.com
Immune cells are often exposed to low oxygen tensions, which markedly affect cellular
metabolism. We describe how activated T cells adapt to the changing energy supplies in
hypoxic areas of inflamed tissues by using hypoxia-inducible factor 1 (HIF1) to switch to
glycolysis as the main source of energy and by signalling through extracellular-adenosine
receptors. This hypoxic regulation might alter the balance between T helper 1 cells and T
helper 2 cells and might alter the activities of cells of the innate immune system, thereby …
Abstract
Immune cells are often exposed to low oxygen tensions, which markedly affect cellular metabolism. We describe how activated T cells adapt to the changing energy supplies in hypoxic areas of inflamed tissues by using hypoxia-inducible factor 1 (HIF1) to switch to glycolysis as the main source of energy and by signalling through extracellular-adenosine receptors. This hypoxic regulation might alter the balance between T helper 1 cells and T helper 2 cells and might alter the activities of cells of the innate immune system, thereby qualitatively and quantitatively affecting immune responses. This regulatory mechanism should be taken into account in the design and interpretation of in vitro and in vivo studies of immune-cell effector functions.
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