Succinate enhances mitochondrial metabolism and phagocytosis in human airspace monocytes

Airspace macrophages (AM) are crucial to host defence and to maintenance of lung homeostasis, with smoking drastically compromising these functions. Airspace monocytes, precursors of the differentiated AM, are found in increased numbers in the lungs of smokers yet little is known about their metabolic regulation and function. Here, we develop a click chemistry-based single cell analysis platform to characterise human airspace monocytes and AM ex vivo , identifying distinct metabolic profiles and a key role for oxidative phosphorylation in supporting phagocytic function. While blood and newly recruited CD93+ airspace monocytes show low mitochondrial dependency, AM rely heavily on oxidative phosphorylation. Acute succinate supplementation enhanced mitochondrial metabolism and phagocytosis in monocytes and promoted their differentiation into highly oxidative macrophages with enhanced function. Succinate emerges as a promising candidate to restore lung immune function, particularly in the smoker’s lung where airspace monocytes are enriched. Overall, we identify mitochondrial metabolism as a key modulator of lung immune function and a target for therapeutic intervention, with potential applications in systemic monocyte-targeted therapies and metabolic preconditioning for adoptive cell therapies.

One Sentence Summary : Mitochondrial metabolism regulates phagocytic function in human lung monocytes and macrophages and can be targeted using succinate.