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The Roles of Lactate and Lactylation in Diseases Related to Mitochondrial Dysfunction

Fei Ma, Wei Yu

2025International Journal of Molecular Sciences14 citationsDOIOpen Access PDF

Abstract

Glycolysis and oxidative phosphorylation are the main pathways of cellular energy production. Glucose is metabolized via glycolysis to generate pyruvate, which, under anaerobic conditions, is converted into lactate, while, under aerobic conditions, pyruvate enters mitochondria for oxidative phosphorylation to produce more energy. Accordingly, mitochondrial dysfunction disrupts the energy balance. Lactate, historically perceived as a harmful metabolic byproduct. However, emerging research indicates that lactate has diverse biological functions, encompassing energy regulation, epigenetic remodeling, and signaling activities. Notably, the 2019 study revealed the role of lactate in regulating gene expression through histone and non-histone lactylation, thereby influencing critical biological processes. Metabolic reprogramming is a key adaptive mechanism of cells responding to stresses. The Warburg effect in tumor cells exemplifies this, with glucose preferentially converted to lactate for rapid energy, accompanied by metabolic imbalances, characterized by exacerbated aerobic glycolysis, lactate accumulation, suppressed mitochondrial oxidative phosphorylation, and compromised mitochondrial function, ultimately resulting in a vicious cycle of metabolic dysregulation. As molecular bridges connecting metabolism and epigenetics, lactate and lactylation offer novel therapeutic targets for diseases like cancer and neurodegenerative diseases. This review summarizes the interplay between metabolic reprogramming and mitochondrial dysfunction, while discussing lactate and lactylation's mechanistic in the pathogenesis of related diseases.

Topics & Concepts

Oxidative phosphorylationAnaerobic glycolysisWarburg effectGlycolysisMitochondrionBiologyCell biologyCitric acid cycleMetabolic pathwayEpigeneticsBiochemistryMetabolismGeneMitochondrial Function and PathologyCancer, Hypoxia, and MetabolismATP Synthase and ATPases Research
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