Promote Sepsis Recovery through the Inhibition of Immunothrombosis via a Combination of Probenecid Nanocrystals and Cefotaxime Sodium
Zhengjie Meng, Haixiao Huang, Jiaqi Guo, Dong Wang, Xinyue Tao, Qihao Dai, Yun Bai, Chenyu Ma, Luming Huang, Yao Fu, Chenyu Lu, Hengjian Wang, Qiyue Wang, Xueming Li, Hao Ren
Abstract
Sepsis is a life-threatening organ dysfunction syndrome caused by a dysregulated host immune response to pathogenic infection. Due to its high mortality rate, it has been a major global public health problem. Recent studies have shown that the formation of immunothrombosis plays as a "double-edged sword" in the pathogenesis of sepsis, and how to properly regulate immunothrombosis to avoid organ damage and end the high-inflammation state as early as possible are the key steps for sepsis therapy. Considering the complexity of sepsis therapy, the development of an effective combined therapeutic strategy is the goal of this study. First, the insoluble Panexin1 (Panx1) channel inhibitor probenecid (Prob) was prepared as nanocrystals and administered via intramuscular injection. At the same time, septic mice were intravenously injected with cefotaxime sodium through the tail vein for combination therapy. After treatment, the number of infection foci and the level of serum inflammatory factors in septic mice were significantly reduced, and also neutrophil NETosis was significantly inhibited; thus, the survival rate of septic mice was dramatically increased. Pathological analysis revealed that the combination treatment was safe and effective and could significantly reduce the formation of immunothrombosis in septic mice.