Immunometabolism

Immunometabolism is a branch of biology that studies the interplay between metabolism and immunology in all organisms. In particular, immunometabolism is the study of the molecular and biochemical underpinninngs for i) the metabolic regulation of immune function, and ii) the regulation of metabolism by molecules and cells of the immune system.[1] Further categorization includes i) systemic immunometabolism and ii) cellular immunometabolism.[2] Immunometabolism includes metabolic inflammation:a chronic, systemic, low grade inflammation, orchestrated by metabolic deregulation caused by obesity or aging.

Immunometabolism first appears in academic literature in 2011, where it is defined as "an emerging field of investigation at the interface between the historically distinct disciplines of immunology and metabolism."[3] A later article defines immunometabolism as describing "the changes that occur in intracellular metabolic pathways in immune cells during activation".[4] Broadly, immunometabolic research records the physiological functioning of the immune system in the context of different metabolic conditions in health and disease. These studies can cover molecular and cellular aspects of immune system function in vitro, in situ, and in vivo, under different metabolic conditions. For example, highly proliferative cells such as cancer cells and activating T cells undergo metabolic reprogramming, increasing glucose uptake to shift towards aerobic glycolysis during normoxia. While aerobic glycolysis is an inefficient pathway for ATP production in quiescent cells, this so-called “Warburg effect” supports the bioenergetic and biosynthetic needs of rapidly proliferating cells.[5]

  1. ^ Hotamisligil GS (September 2017). "Foundations of Immunometabolism and Implications for Metabolic Health and Disease". Immunity. 47 (3): 406–420. doi:10.1016/j.immuni.2017.08.009. PMC 5627521. PMID 28930657.
  2. ^ Lercher A, Baazim H, Bergthaler A (September 2020). "Systemic Immunometabolism: Challenges and Opportunities". Immunity. 53 (3): 496–509. doi:10.1016/j.immuni.2020.08.012. PMC 7491485. PMID 32937151.
  3. ^ Mathis D, Shoelson SE (February 2011). "Immunometabolism: an emerging frontier". Nature Reviews. Immunology. 11 (2): 81–83. doi:10.1038/nri2922. PMC 4784680. PMID 21469396.
  4. ^ O'Neill LA, Kishton RJ, Rathmell J (September 2016). "A guide to immunometabolism for immunologists". Nature Reviews. Immunology. 16 (9): 553–565. doi:10.1038/nri.2016.70. PMC 5001910. PMID 27396447.
  5. ^ Andrejeva G, Rathmell JC (July 2017). "Similarities and Distinctions of Cancer and Immune Metabolism in Inflammation and Tumors". Cell Metabolism. 26 (1): 49–70. doi:10.1016/j.cmet.2017.06.004. PMC 5555084. PMID 28683294.