败血症
重编程
癌症研究
医学
炎症
生物
免疫学
巨噬细胞
细胞生物学
细胞因子
发病机制
新陈代谢
化学
作者
Wenchen Luo,Wei Xu,Qimeng Yin,Jieqiong Song,Jie Wang (16762),Yian Guan,Jian Huang,Jian Yu,Kexin Zou,Danfeng Jin,Chao Xu,Min Qiu,Zhixin Qiu,Jing Zhong
标识
DOI:10.1038/s41467-026-70466-4
摘要
Sepsis-induced excessive inflammation contributes to mortality, but restricting hyperinflammation in sepsis remains challenging. Here, we identify dipeptidase 2 (DPEP2) as an immunotherapeutic target in sepsis by integrating single-cell and bulk RNA sequencing data from septic patients. In patients with sepsis, peripheral monocytes/macrophages have reduced DPEP2 expression, with DPEP2 levels negatively correlating with inflammation severity, disease progression, and clinical outcomes. In vitro, Dpep2 knockdown enhances macrophage-mediated inflammation, while in septic mice in vivo, macrophage-specific Dpep2 loss decreases survival by exacerbating inflammation and organ damage. Mechanistically, sepsis-induced EGR1 represses Dpep2 transcription, leading to reduced DPEP2-mediated enzymatic cleavage of leukotriene D4 (LTD4). Increased LTD4 redirects the metabolic flux toward prostaglandin E2 overproduction, amplifying NF-κB activation and lipopolysaccharide-induced inflammatory cytokine production. Lastly, lipid nanoparticle (LNP)-mediated delivery of Dpep2 mRNA expression to monocytes/macrophages mitigates inflammation and organ damage in septic mice. Our findings thus suggest a protective function for DPEP2 in sepsis-induced hyperinflammation via immunometabolic regulation, and also present LNP-mediated Dpep2 mRNA delivery as a potential therapy for septic hyperinflammation.
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