TY - JOUR
T1 - Immunosuppressive Siglec-E ligands on mouse aorta are up-regulated by LPS via NF-κB pathway
AU - Liu, Hongmei
AU - Zheng, Yu
AU - Zhang, Yingxian
AU - Li, Jin
AU - Fernandes, Steve M.
AU - Zeng, Dongfeng
AU - Li, Xiaohui
AU - Schnaar, Ronald L.
AU - Jia, Yi
N1 - Funding Information:
This work was supported by National Natural Science Foundations of China (No. 81673427, 81973319), Chongqing Research Program of Natural Science (No. cstc2019jcyj-msxmX0372).
Funding Information:
This work was supported by National Natural Science Foundations of China (No. 81673427 , 81973319 ), Chongqing Research Program of Natural Science (No. cstc2019jcyj-msxmX0372 ).
Publisher Copyright:
© 2019 The Author(s)
PY - 2020/2
Y1 - 2020/2
N2 - Aims: Siglec-E, the mouse ortholog of human Siglec-9, is an immunosuppressive cell surface receptor. Both Siglec-E and Siglec-9 are primarily found on neutrophils, macrophages, and monocytes. When Siglec-E binds to sialoglycan ligands in its extracellular environment, it halts the immune cells’ inflammatory responses. In the present study, we aimed to investigate expression, mechanisms of action and regulation of Siglec-E ligands during vascular inflammation induced by E. coli lipopolysaccharides (LPS) in mouse aorta. Methods: The distribution, molecular size and glycoprotein class of Siglec-E ligands on mouse aorta were determined, and the protein carrier of the ligands was identified. In vivo, the expression of Siglec-E ligands was detected after LPS treatment, with or without NF-κB inhibitor administration. In vitro, cultured primary mouse aortic endothelial cells (MAECs) were used to study changes in expression of Siglec-E ligands induced by LPS with or without NF-κB inhibitors. MAECs induced by LPS were co-cultured with macrophages and the effect of increased expression of Siglec-E ligands analyzed. Results: Siglec-E ligands are O-linked sialoglycoproteins with molecular weights of 70−300 kDa and are distributed broadly on mouse aorta as well as on MAECs in vitro. In vivo, the expression of Siglec-E ligands was increased in mice aortas in response to LPS treatment in an NF-κB signaling pathway dependent manner. In MAECs, the expression of Siglec-E ligands was also increased by LPS via an NF-κB signaling pathway. Deleted in malignant brain tumors-1 was identified to be one of multiple protein carriers of Siglec-E ligands, and glycans of ligands involved in MAECs induced by LPS. Notably, co-incubation of macrophages with LPS-treated MAECs induced macrophage apoptosis and decreased macrophage phagocytosis, effects that were completely reversed by blocking Siglec-E binding to Siglec-E ligands. Conclusions: These data demonstrated that Siglec-E ligands were highly expressed in response to LPS-induced vascular inflammation and inhibited the immune response of macrophages, which may be a therapeutic strategy to interfere with vascular inflammation.
AB - Aims: Siglec-E, the mouse ortholog of human Siglec-9, is an immunosuppressive cell surface receptor. Both Siglec-E and Siglec-9 are primarily found on neutrophils, macrophages, and monocytes. When Siglec-E binds to sialoglycan ligands in its extracellular environment, it halts the immune cells’ inflammatory responses. In the present study, we aimed to investigate expression, mechanisms of action and regulation of Siglec-E ligands during vascular inflammation induced by E. coli lipopolysaccharides (LPS) in mouse aorta. Methods: The distribution, molecular size and glycoprotein class of Siglec-E ligands on mouse aorta were determined, and the protein carrier of the ligands was identified. In vivo, the expression of Siglec-E ligands was detected after LPS treatment, with or without NF-κB inhibitor administration. In vitro, cultured primary mouse aortic endothelial cells (MAECs) were used to study changes in expression of Siglec-E ligands induced by LPS with or without NF-κB inhibitors. MAECs induced by LPS were co-cultured with macrophages and the effect of increased expression of Siglec-E ligands analyzed. Results: Siglec-E ligands are O-linked sialoglycoproteins with molecular weights of 70−300 kDa and are distributed broadly on mouse aorta as well as on MAECs in vitro. In vivo, the expression of Siglec-E ligands was increased in mice aortas in response to LPS treatment in an NF-κB signaling pathway dependent manner. In MAECs, the expression of Siglec-E ligands was also increased by LPS via an NF-κB signaling pathway. Deleted in malignant brain tumors-1 was identified to be one of multiple protein carriers of Siglec-E ligands, and glycans of ligands involved in MAECs induced by LPS. Notably, co-incubation of macrophages with LPS-treated MAECs induced macrophage apoptosis and decreased macrophage phagocytosis, effects that were completely reversed by blocking Siglec-E binding to Siglec-E ligands. Conclusions: These data demonstrated that Siglec-E ligands were highly expressed in response to LPS-induced vascular inflammation and inhibited the immune response of macrophages, which may be a therapeutic strategy to interfere with vascular inflammation.
KW - Deleted in malignant brain tumors-1
KW - Endothelial cells
KW - Inflammation
KW - LPS
KW - Siglec-E ligands
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U2 - 10.1016/j.biopha.2019.109760
DO - 10.1016/j.biopha.2019.109760
M3 - Article
C2 - 31918287
AN - SCOPUS:85076237917
SN - 0753-3322
VL - 122
JO - Biomedicine and Pharmacotherapy
JF - Biomedicine and Pharmacotherapy
M1 - 109760
ER -