AI Article Synopsis
- Immune cell activation leads to new functions like proliferation and cytokine production, requiring ongoing metabolic adaptation to maintain energy (ATP) levels for effective host defense.
- Various metabolic pathways, including glycolysis and oxidative phosphorylation, meet these increased energy demands, with not just glucose but also fatty acids and glutamine contributing to the TCA cycle.
- The article reviews metabolic changes in immune cells from resting to activated states, exploring the relationship between metabolism and immune function and its implications for research and treatment approaches.
Article Abstract
Immune cell activation leads to the acquisition of new functions, such as proliferation, chemotaxis, and cytokine production. These functional changes require continuous metabolic adaption in order to sustain ATP homeostasis for sufficient host defense. The bioenergetic demands are usually met by the interconnected metabolic pathways glycolysis, TCA cycle, and oxidative phosphorylation. Apart from glucose, other sources, such as fatty acids and glutamine, are able to fuel the TCA cycle.Rising evidence has shown that cellular metabolism has a direct effect on the regulation of immune cell functions. Thus, quiescent immune cells maintain a basal metabolic state, which shifts to an accelerated metabolic level upon immune cell activation in order to promote key effector functions.This review article summarizes distinct metabolic signatures of key immune cell subsets from quiescence to activation and demonstrates a methodical concept of how to assess cellular metabolic pathways. It further discusses why metabolic functions are of rising interest for translational research and how they can be affected by the underlying pathophysiological condition and/or therapeutic interventions.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC7746792 | PMC |
| http://dx.doi.org/10.1186/s40635-020-00316-0 | DOI Listing |
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