Nutrient availability regulates the secretion and function of immune cell-derived extracellular vesicles through metabolic rewiring.
Yizhuo WangPeng LouYijing XieShuyun LiuLan LiChengshi WangDan DuYounan ChenYanrong LuJingqiu ChengJingping LiuPublished in: Science advances (2024)
Extracellular vesicle (EV)-based immunotherapeutics have emerged as promising strategy for treating diseases, and thus, a better understanding of the factors that regulate EV secretion and function can provide insights into developing advanced therapies. Here, we report that nutrient availability, even changes in individual nutrient components, may affect EV biogenesis and composition of immune cells [e.g., macrophages (Mφs)]. As a proof of concept, EVs from M1-Mφ under glutamine-depleted conditions (EV GLN- ) had higher yields, functional compositions, and immunostimulatory potential than EVs from conventional GLN-present medium (EV GLN+ ). Mechanistically, the systemic metabolic rewiring (e.g., altered energy and redox metabolism) induced by GLN depletion resulted in up-regulated pathways related to EV biogenesis/cargo sorting (e.g., ESCRT) and immunostimulatory molecule production (e.g., NF-κB and STAT) in Mφs. This study highlights the importance of nutrient status in EV secretion and function, and optimizing metabolic states and/or integrating them with other engineering methods may advance the development of EV therapeutics.
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