Blockade of mIL‐6R alleviated lipopolysaccharide‐induced systemic inflammatory response syndrome by suppressing NF‐κB‐mediated Ccl2 expression and inflammasome activation
Ji‐Min Dai,
Xue‐Qin Zhang,
Jia‐Jia Zhang,
Wei‐Jie Yang,
Xiang‐Min Yang,
Huijie Bian,
Zhi‐Nan Chen
Affiliations
Ji‐Min Dai
National Translational Science Center for Molecular Medicine&Department of Cell Biology State Key Laboratory of Cancer Biology the Fourth Military Medical University Xi'an P.R. China
Xue‐Qin Zhang
National Translational Science Center for Molecular Medicine&Department of Cell Biology State Key Laboratory of Cancer Biology the Fourth Military Medical University Xi'an P.R. China
Jia‐Jia Zhang
National Translational Science Center for Molecular Medicine&Department of Cell Biology State Key Laboratory of Cancer Biology the Fourth Military Medical University Xi'an P.R. China
Wei‐Jie Yang
National Translational Science Center for Molecular Medicine&Department of Cell Biology State Key Laboratory of Cancer Biology the Fourth Military Medical University Xi'an P.R. China
Xiang‐Min Yang
National Translational Science Center for Molecular Medicine&Department of Cell Biology State Key Laboratory of Cancer Biology the Fourth Military Medical University Xi'an P.R. China
Huijie Bian
National Translational Science Center for Molecular Medicine&Department of Cell Biology State Key Laboratory of Cancer Biology the Fourth Military Medical University Xi'an P.R. China
Zhi‐Nan Chen
National Translational Science Center for Molecular Medicine&Department of Cell Biology State Key Laboratory of Cancer Biology the Fourth Military Medical University Xi'an P.R. China
Abstract Systemic inflammatory response syndrome (SIRS) is characterized by dysregulated cytokine release, immune responses and is associated with organ dysfunction. IL‐6R blockade indicates promising therapeutic effects in cytokine release storm but still remains unknown in SIRS. To address the issue, we generated the human il‐6r knock‐in mice and a defined epitope murine anti‐human membrane‐bound IL‐6R (mIL‐6R) mAb named h‐mIL‐6R mAb. We found that the h‐mIL‐6R and the commercial IL‐6R mAb Tocilizumab significantly improved the survival rate, reduced the levels of TNF‐α, IL‐6, IL‐1β, IFN‐γ, transaminases and blood urea nitrogen of LPS‐induced SIRS mice. Besides, the h‐mIL‐6R mAb could also dramatically reduce the levels of inflammatory cytokines in LPS‐treated THP‐1 cells in vitro. RNA‐seq analysis indicated that the h‐mIL‐6R mAb could regulate LPS‐induced activation of NF‐κB/Ccl2 and NOD‐like receptor signaling pathways. Furthermore, we found that the h‐mIL‐6R mAb could forwardly inhibit Ccl2 expression and NLRP3‐mediated pyroptosis by suppressing NF‐κB in combination with the NF‐κB inhibitor. Collectively, mIL‐6R mAbs suppressed NF‐κB/Ccl2 signaling and inflammasome activation. IL‐6R mAbs are potential alternative therapeutics for suppressing excessive cytokine release, over‐activated inflammatory responses and alleviating organ injuries in SIRS.
