重组棘球蚴抗原 B 亚基 2 蛋白对小鼠模型败血症的治疗效果。

IF 3 2区 医学 Q1 PARASITOLOGY
Ya-Yun Qian, Fei-Fei Huang, Si-Yu Chen, Wei-Xiao Zhang, Yin Wang, Peng-Fei Du, Gen Li, Wen-Bo Ding, Lei Qian, Bin Zhan, Liang Chu, Dong-Hui Jiang, Xiao-Di Yang, Rui Zhou
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引用次数: 0

摘要

背景:败血症是一种可能致命的全身炎症反应综合征(SIRS),威胁着全球数百万人的生命。棘球蚴抗原 B(EgAgB)是绦虫幼虫释放的一种蛋白质。这种蛋白质已被证明在调节宿主免疫反应中发挥重要作用。在这项研究中,我们在大肠杆菌中表达了可溶性重组蛋白 EgAgB(rEgAgB),并探讨了它对败血症的保护作用:方法:通过对 BALB/c 小鼠进行盲肠结扎术(CLP)建立败血症模型。腹腔注射 5 µg rEgAgB 给 CLP 诱导败血症的小鼠,观察败血症发生后 72 h 的存活率,以确定 rEgAgB 对败血症的治疗效果。检测血清中的促炎细胞因子[肿瘤坏死因子(TNF)-α、白细胞介素(IL)-6]和调节细胞因子[IL-10、转化生长因子β(TGF-β)],并观察用rEgAgB治疗的败血症小鼠肝脏、肾脏和肺脏与未用rEgAgB治疗的小鼠相比的组织病理学变化。rEgAgB 对巨噬细胞极化的影响是通过 rEgAgB 与腹腔巨噬细胞的体外培养进行的。测量了这些组织中 TLR2 和 MyD88 的水平,以确定 TLR-2/MyD88 参与了败血症诱导的炎症信号通路:在体内,我们观察到用rEgAgB治疗可显著提高CLP诱导败血症小鼠72小时的存活率,而未用rEgAgB治疗的小鼠在同一时期内全部死亡。存活率的提高与肝、肺、肾等关键器官的病理损伤减少有关。外周血和关键器官组织中的促炎细胞因子水平降低和调节细胞因子表达增加也证明了这一点。进一步研究发现,rEgAgB能通过抑制TLR2/MyD88信号通路,促进巨噬细胞从经典的活化巨噬细胞(M1)极化为调节性M2样巨噬细胞:rEgAgB对脓毒症小鼠的治疗效果是在小鼠模型中观察到的,这种治疗效果与炎症反应减少和调节反应增加有关,可能是通过抑制TLR2/MyD88炎症通路诱导巨噬细胞从促炎性M1表型极化为调节性M2表型。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Therapeutic effect of recombinant Echinococcus granulosus antigen B subunit 2 protein on sepsis in a mouse model.

Background: Sepsis is a potentially fatal systemic inflammatory response syndrome (SIRS) that threatens millions of lives worldwide. Echinococcus granulosus antigen B (EgAgB) is a protein released by the larvae of the tapeworm. This protein has been shown to play an important role in modulating host immune response. In this study we expressed EgAgB as soluble recombinant protein in E. coli (rEgAgB) and explored its protective effect on sepsis.

Methods: The sepsis model was established by cecal ligation and puncture (CLP) procedure in BALB/c mice. The therapeutic effect of rEgAgB on sepsis was performed by interperitoneally injecting 5 µg rEgAgB in mice with CLP-induced sepsis and observing the 72 h survival rate after onset of sepsis. The proinflammatory cytokines [tumor necrosis factor (TNF)-α, interleukin (IL)-6] and regulatory cytokines [IL-10, transforming growth factor beta (TGF-β)] were measured in sera, and the histopathological change was observed in livers, kidneys, and lungs of septic mice treated with rEgAgB compared with untreated mice. The effect of rEgAgB on the macrophage polarization was performed in vitro by incubating rEgAgB with peritoneal macrophages. The levels of TLR2 and MyD88 were measured in these tissues to determine the involvement of TLR-2/MyD88 in the sepsis-induced inflammatory signaling pathway.

Results: In vivo, we observed that treatment with rEgAgB significantly increased the survival rate of mice with CLP-induced sepsis up to 72 h while all mice without treatment died within the same period. The increased survival was associated with reduced pathological damage in key organs such as liver, lung, and kidneys. It was supported by the reduced proinflammatory cytokine levels and increased regulatory cytokine expression in peripheral blood and key organ tissues. Further study identified that treatment with rEgAgB promoted macrophage polarization from classically activated macrophage (M1) to regulatory M2-like macrophage via inhibiting TLR2/MyD88 signal pathway.

Conclusions: The therapeutic effects of rEgAgB on mice with sepsis was observed in a mice model that was associated with reduced inflammatory responses and increased regulatory responses, possibly through inducing polarization of macrophages from proinflammatory M1 to regulatory M2 phenotype through inhibiting TLR2/MyD88 inflammatory pathway.

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来源期刊
Parasites & Vectors
Parasites & Vectors 医学-寄生虫学
CiteScore
6.30
自引率
9.40%
发文量
433
审稿时长
1.4 months
期刊介绍: Parasites & Vectors is an open access, peer-reviewed online journal dealing with the biology of parasites, parasitic diseases, intermediate hosts, vectors and vector-borne pathogens. Manuscripts published in this journal will be available to all worldwide, with no barriers to access, immediately following acceptance. However, authors retain the copyright of their material and may use it, or distribute it, as they wish. Manuscripts on all aspects of the basic and applied biology of parasites, intermediate hosts, vectors and vector-borne pathogens will be considered. In addition to the traditional and well-established areas of science in these fields, we also aim to provide a vehicle for publication of the rapidly developing resources and technology in parasite, intermediate host and vector genomics and their impacts on biological research. We are able to publish large datasets and extensive results, frequently associated with genomic and post-genomic technologies, which are not readily accommodated in traditional journals. Manuscripts addressing broader issues, for example economics, social sciences and global climate change in relation to parasites, vectors and disease control, are also welcomed.
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