Extracellular citrate modulates glutamine metabolism in human macrophages during infection

Citrate is a central metabolite linking tricarboxylic acid (TCA) cycle activity to energy and lipid metabolism and supports the synthesis of inflammatory mediators, including itaconate, in macrophages. While citrate is primarily generated endogenously, extracellular citrate levels are elevated under pathological conditions such as citrate transporter disorder. Cells import extracellular citrate through SLC13 transporters, including the sodium-dependent citrate transporter NaCT (encoded by SLC13A5). However, whether macrophages take up extracellular citrate and how this affects metabolism and function remains unclear. Here, we combined mass spectrometry and tracing approaches to investigate the metabolic fate of citrate in human macrophage cell lines, primary, and iPSC-derived macrophages. We demonstrate that cells take up extracellular citrate, which was enhanced under metabolic stress conditions. Exogenous citrate was not substantially utilized as a carbon source but selectively altered glutamine metabolism and responses to bacterial infection with Salmonella enterica Typhimurium and Legionella pneumophila Corby. Our work identifies extracellular citrate as a context-dependent regulator in macrophages that decouples uptake from metabolic utilization. HighlightsO_LIMacrophages import extracellular citrate via SLC13 transporters C_LIO_LIExtracellular citrate accumulates under hypoxia and inflammatory activation C_LIO_LIExtracellular citrate does not fuel central carbon metabolism in human macrophages C_LIO_LICitrate modulates glutamine immunometabolism and modulates immune responses C_LI eTOC blurbVo{beta}-Willenbockel et al. demonstrate that human macrophages accumulate extracellular citrate without using it as a major carbon source. Instead, citrate modulates glutamine utilization, inflammatory responses, and host-pathogen interactions revealing a context-dependent regulatory role for extracellular metabolites in immune cell function.