Cell. 2026 Feb 27. pii: S0092-8674(26)00115-7. [Epub ahead of print]
Abigail Xie,
Julia S Brunner,
Sangita Chakraborty,
Angela M Montero,
Anna E Bridgeman,
Katrina I Paras,
Ruobing Cui,
Maider Fagoaga-Eugui,
Monika Komza,
Paige K Arnold,
Benjamin T Jackson,
Santiago Noriega Madrazo,
Mohamed I Atmane,
Sebastian E Carrasco,
Lydia W S Finley.
The tricarboxylic acid (TCA) cycle couples nutrient oxidation with the generation of reducing equivalents that power oxidative phosphorylation. Nevertheless, the requirement for components of the TCA cycle is context-specific, raising the question of which TCA cycle outputs support cell fitness. Here, we demonstrate that citrate clearance is an essential function of the TCA cycle. As citrate production increases, so do TCA cycle activity and dependence upon aconitase 2 (ACO2), the enzyme that initiates citrate catabolism in the TCA cycle. Disrupting citrate catabolism activates the integrated stress response and impairs cell fitness, and these effects are reversed by preventing citrate production or promoting mitochondrial citrate efflux. In vivo, ACO2 deficiency induces citrate accumulation and triggers tubular degeneration in the kidney, a tissue that physiologically takes up circulating citrate. Thus, intracellular citrate accumulation can be a metabolic liability, and citrate clearance is a major function of ACO2 in the TCA cycle.
Keywords: ACO2; TCA cycle; cell metabolism; citrate; integrated stress response