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Tricarboxylic Acid (TCA) Cycle Intermediates: Regulators of Immune Responses

Inseok Choi, Hyewon Son, Jea-Hyun Baek

2021Life225 citationsDOIOpen Access PDF

Abstract

The tricarboxylic acid cycle (TCA) is a series of chemical reactions used in aerobic organisms to generate energy via the oxidation of acetylcoenzyme A (CoA) derived from carbohydrates, fatty acids and proteins. In the eukaryotic system, the TCA cycle occurs completely in mitochondria, while the intermediates of the TCA cycle are retained inside mitochondria due to their polarity and hydrophilicity. Under cell stress conditions, mitochondria can become disrupted and release their contents, which act as danger signals in the cytosol. Of note, the TCA cycle intermediates may also leak from dysfunctioning mitochondria and regulate cellular processes. Increasing evidence shows that the metabolites of the TCA cycle are substantially involved in the regulation of immune responses. In this review, we aimed to provide a comprehensive systematic overview of the molecular mechanisms of each TCA cycle intermediate that may play key roles in regulating cellular immunity in cell stress and discuss its implication for immune activation and suppression.

Topics & Concepts

Citric acid cycleTricarboxylic acidMitochondrionCytosolCell biologyBiochemistryCell cycleBiologyMetabolismCellChemistryEnzymeMitochondrial Function and PathologyAutophagy in Disease and Therapyinterferon and immune responses