Litcius/Paper detail

Oxygenated phosphatidylethanolamine navigates phagocytosis of ferroptotic cells by interacting with TLR2

Xiang Luo, Haibiao Gong, Huaying Gao, Yanping Wu, Wan‐Yang Sun, Zhengqiu Li, Guan Wang, Bo Liu, Lei Liang, Hiroshi Kurihara, Wen‐Jun Duan, Yi-Fang Li, Rong‐Rong He

2021Cell Death and Differentiation249 citationsDOIOpen Access PDF

Abstract

Abstract During cancer therapy, phagocytic clearance of dead cells plays a vital role in immune homeostasis. The nonapoptotic form of cell death, ferroptosis, exhibits extraordinary potential in tumor treatment. However, the phagocytosis mechanism that regulates the engulfment of ferroptotic cells remains unclear. Here, we establish a novel pathway for phagocytic clearance of ferroptotic cells that is different from canonical mechanisms by using diverse ferroptosis models evoked by GPX4 dysfunction/deficiency. We identified the oxidized phospholipid, 1-steaoryl-2-15-HpETE- sn -glycero-3-phosphatidylethanolamine (SAPE-OOH), as a key eat-me signal on the ferroptotic cell surface. Enriching the plasma membrane with SAPE-OOH increased the efficiency of phagocytosis of ferroptotic cells by macrophage, a process that was suppressed by lipoprotein-associated phospholipase A 2 . Ligand fishing, lipid blotting, and cellular thermal shift assay screened and identified TLR2 as a membrane receptor that directly recognized SAPE-OOH, which was further confirmed by TLR2 inhibitors and gene silencing studies. A mouse mammary tumor model of ferroptosis verified SAPE-OOH and TLR2 as critical players in the clearance of ferroptotic cells in vivo. Taken together, this work demonstrates that SAPE-OOH on ferroptotic cell surface acts as an eat-me signal and navigates phagocytosis by targeting TLR2 on macrophages.

Topics & Concepts

PhagocytosisCell biologyTLR2Programmed cell deathChemistryInternalizationGPX4CellPhosphatidylethanolamineCancer cellCD47BiologyReceptorInnate immune systemPhospholipidApoptosisCancerBiochemistryMembraneOxidative stressGlutathione peroxidaseGeneticsCatalasePhosphatidylcholineFerroptosis and cancer prognosisPhagocytosis and Immune RegulationImmune cells in cancer