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Metabolic reprogramming of the inflammatory response in the nervous system: the crossover between inflammation and metabolism.

Jesus Amo-AparicioCharles A DinarelloRubén López-Vales
Published in: Neural regeneration research (2023)
Metabolism is a fundamental process by which biochemicals are broken down to produce energy (catabolism) or used to build macromolecules (anabolism). Metabolism has received renewed attention as a mechanism that generates molecules that modulate multiple cellular responses. This was first identified in cancer cells as the Warburg effect, but it is also present in immunocompetent cells. Studies have revealed a bidirectional influence of cellular metabolism and immune cell function, highlighting the significance of metabolic reprogramming in immune cell activation and effector functions. Metabolic processes such as glycolysis, oxidative phosphorylation, and fatty acid oxidation have been shown to undergo dynamic changes during immune cell response, facilitating the energetic and biosynthetic demands. This review aims to provide a better understanding of the metabolic reprogramming that occurs in different immune cells upon activation, with a special focus on central nervous system disorders. Understanding the metabolic changes of the immune response not only provides insights into the fundamental mechanisms that regulate immune cell function but also opens new approaches for therapeutic strategies aimed at manipulating the immune system.
Keyphrases
  • inflammatory response
  • immune response
  • fatty acid
  • induced apoptosis
  • oxidative stress
  • randomized controlled trial
  • regulatory t cells
  • toll like receptor
  • type iii