Annelise Y. Mah scite author profile

There has been increasing recognition of the importance of cellular metabolism and metabolic substrates for the function and differentiation of immune cells. Here, for the first time, we investigate the metabolic requirements for production of IFN-γ by freshly isolated NK cells. Primary murine NK cells mainly utilize mitochondrial oxidative phosphorylation at rest and with short-term activation. Remarkably, we discovered significant differences in the metabolic requirements of murine NK cell IFN-γ production depending upon the activation signal. Stimulation of NK cell IFN-γ production was independent of glycolysis or mitochondrial oxidative phosphorylation when cells were activated with IL-12+IL-18. By contrast, stimulation via activating NK receptors required glucose-driven oxidative phosphorylation. Prolonged treatment with high-dose, but not low dose, IL-15 eliminated the metabolic requirement for receptor stimulation. In summary, this study demonstrates that metabolism provides an essential second signal for induction of IFN-γ production by activating NK cell receptors that can be reversed with prolonged high-dose IL-15 treatment.

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Glycolytic requirement for NK cell cytotoxicity and cytomegalovirus control

Mah¹,

Rashidi²,

Keppel³

et al. 2017

108

111

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Metabolic Regulation of Natural Killer Cell IFN-γ Production

2016

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Metabolism is critical for a host of cellular functions and provides a source of intracellular energy. It has been recognized recently that metabolism also regulates differentiation and effector functions of immune cells. Although initial work in this field has focused largely on T lymphocytes, recent studies have demonstrated metabolic control of innate immune cells, including natural killer (NK) cells. Here, we review what is known regarding the metabolic requirements for NK cell activation, focusing on NK cell production of interferon-gamma (IFN-γ). NK cells are innate immune lymphocytes that are poised for rapid activation during the early immune response. Although their basal metabolic rates do not change with short-term activation, they exhibit specific metabolic requirements for activation depending upon the stimulus received. These metabolic requirements for NK cell activation are altered by culturing NK cells with interleukin-15, which increases NK cell metabolic rates at baseline and shifts them toward aerobic glycolysis. We discuss the metabolic pathways important for NK cell production of IFN-γ protein and potential mechanisms whereby metabolism regulates NK cell function.

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Cox10-deficient NK cells have increased apoptosis during MCMV infection, leading to susceptibility

Mah

Keppel

Saucier

et al. 2018

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Studies in diverse cell types have rediscovered the importance of basic cellular metabolism in regulating immune responses. For example, glycolytic and oxidative metabolism are counter-regulated in T cells to develop inflammatory effectors vs. memory and regulatory cells, respectively. NK cells, which are first responders to viral infection and malignant transformation, may be similarly regulated. We recently showed that NK cell cytotoxic activity during infection with murine cytomegalovirus (MCMV) required glucose metabolism, whereas other NK cell responses such as cytokine production did not. We hypothesized that oxidative metabolism would be required for some of these glycolysis-independent responses. To test this, we examined responses to MCMV in mice with an NK-specific deletion of Cox10, which is required for assembly of electron transport chain complex IV. These “Ncr1-Cox10” mice had normal NK cell development and numbers, and stimulated Cox10-deficient NK cells survived and proliferated normally in vitro. However, Ncr1-Cox10 mice were more susceptible to MCMV infection, with impaired expansion of MCMV-specific Ly49H+ NK cells and increased apoptosis of splenic NK cells. Thus, we find that Cox10 is required by NK cells to expand and survive in response to MCMV infection. These deficiencies were not found in vitro, emphasizing the importance of using NK-specific genetic models to investigate metabolism in physiological contexts.

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Annelise Y. Mah

Activation-Specific Metabolic Requirements for NK Cell IFN-γ Production

Glycolytic requirement for NK cell cytotoxicity and cytomegalovirus control

Metabolic Regulation of Natural Killer Cell IFN-γ Production

Cox10-deficient NK cells have increased apoptosis during MCMV infection, leading to susceptibility

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