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本文引用的文献

1
Inhibition of complement C5 protects against organ failure and reduces mortality in a baboon model of sepsis.在狒狒脓毒症模型中,抑制补体C5可预防器官衰竭并降低死亡率。
Proc Natl Acad Sci U S A. 2017 Aug 1;114(31):E6390-E6399. doi: 10.1073/pnas.1706818114. Epub 2017 Jul 18.
2
Dangerous liaisons: complement, coagulation, and kallikrein/kinin cross-talk act as a linchpin in the events leading to thromboinflammation.危险的联姻:补体、凝血和激肽/激肽释放酶相互作用作为导致血栓炎症发生的关键因素。
Immunol Rev. 2016 Nov;274(1):245-269. doi: 10.1111/imr.12471.
3
Complement Activation in Arterial and Venous Thrombosis is Mediated by Plasmin.补体在动脉和静脉血栓形成中的激活是由纤溶酶介导的。
EBioMedicine. 2016 Feb 6;5:175-82. doi: 10.1016/j.ebiom.2016.02.011. eCollection 2016 Mar.
4
Crosstalk between the coagulation and complement systems in sepsis.脓毒症中凝血与补体系统的相互作用。
Thromb Res. 2014 May;133 Suppl 1(0 1):S28-31. doi: 10.1016/j.thromres.2014.03.014.
5
Thrombin generates previously unidentified C5 products that support the terminal complement activation pathway.凝血酶生成了先前未被识别的 C5 产物,这些产物支持末端补体激活途径。
Blood. 2012 Aug 23;120(8):1717-25. doi: 10.1182/blood-2012-02-412080. Epub 2012 Jul 16.
6
Pathophysiology, staging and therapy of severe sepsis in baboon models.狒狒严重脓毒症的病理生理学、分期和治疗。
J Cell Mol Med. 2012 Apr;16(4):672-82. doi: 10.1111/j.1582-4934.2011.01454.x.
7
Molecular intercommunication between the complement and coagulation systems.补体系统与凝血系统的分子相互通讯。
J Immunol. 2010 Nov 1;185(9):5628-36. doi: 10.4049/jimmunol.0903678. Epub 2010 Sep 24.
8
Complement inhibition decreases the procoagulant response and confers organ protection in a baboon model of Escherichia coli sepsis.补体抑制可降低大肠杆菌败血症狨猴模型的促凝反应并提供器官保护。
Blood. 2010 Aug 12;116(6):1002-10. doi: 10.1182/blood-2010-02-269746. Epub 2010 May 13.
9
Complexity of complement activation in sepsis.脓毒症中补体激活的复杂性。
J Cell Mol Med. 2008 Dec;12(6A):2245-54. doi: 10.1111/j.1582-4934.2008.00504.x.
10
Temporal dynamics of gene expression in the lung in a baboon model of E. coli sepsis.大肠杆菌败血症狒狒模型中肺组织基因表达的时间动态变化。
BMC Genomics. 2007 Feb 26;8:58. doi: 10.1186/1471-2164-8-58.

体内生成的凝血酶和纤溶酶不会激活狒狒的补体系统。

In vivo-generated thrombin and plasmin do not activate the complement system in baboons.

作者信息

Keshari Ravi S, Silasi Robert, Lupu Cristina, Taylor Fletcher B, Lupu Florea

机构信息

Cardiovascular Biology Research Program, Oklahoma Medical Research Foundation, Oklahoma City, OK.

出版信息

Blood. 2017 Dec 14;130(24):2678-2681. doi: 10.1182/blood-2017-06-788216. Epub 2017 Oct 11.

DOI:10.1182/blood-2017-06-788216
PMID:29021229
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5731087/
Abstract

Sepsis concurrently activates both coagulation and complement systems. Although complement activation by bacteria is well documented, work in mice and in vitro suggests that coagulation proteases can directly cleave complement proteins. We aimed to determine whether generation of coagulation proteases in vivo can activate the complement cascade in 2 highly coagulopathic models. We compared temporal changes in activation biomarkers of coagulation (thrombin-antithrombin [TAT]), fibrinolysis (plasmin-antiplasmin [PAP]), and complement (C3b, C5a, C5b-9) in baboons infused with factor Xa (FXa) and phospholipids (FXa/phosphatidylcholine-phosphatidylserine [PCPS]) vs LD100 We found that, albeit with different timing, both FXa/PCPS and infusion led to robust thrombin and plasmin generation. Conversely, only challenge activated the complement system, reaching a maximum at 2 hours postchallenge during the peaks of lipopolysaccharide and bacteremia but not of TAT and PAP. Despite inducing a strong burst of thrombin and plasmin, FXa/PCPS infusion did not produce measurable levels of complement activation in vivo. Similarly, ex vivo incubation of baboon serum with thrombin, plasmin, or FXa did not show noticeable complement cleavage unless supraphysiologic amounts of enzymes were used. Our results suggest that in vivo-generated thrombin and plasmin do not directly activate the complement in nonhuman primates.

摘要

脓毒症会同时激活凝血系统和补体系统。虽然细菌激活补体已有充分记载,但小鼠实验和体外实验表明,凝血蛋白酶可直接裂解补体蛋白。我们旨在确定在两种高度凝血病模型中,体内产生的凝血蛋白酶是否能激活补体级联反应。我们比较了输注凝血因子Xa(FXa)和磷脂(FXa/磷脂酰胆碱-磷脂酰丝氨酸[PCPS])的狒狒与接受致死剂量(LD100)挑战的狒狒在凝血(凝血酶-抗凝血酶[TAT])、纤维蛋白溶解(纤溶酶-抗纤溶酶[PAP])和补体(C3b、C5a、C5b-9)激活生物标志物方面的时间变化。我们发现,尽管时间不同,但FXa/PCPS和LD100输注均导致凝血酶和纤溶酶大量生成。相反,只有LD100挑战激活了补体系统,在脂多糖和菌血症高峰期的挑战后2小时达到最大值,但TAT和PAP未达到峰值。尽管FXa/PCPS输注引发了强烈的凝血酶和纤溶酶爆发,但在体内并未产生可测量的补体激活水平。同样,除非使用超生理量的酶,将狒狒血清与凝血酶、纤溶酶或FXa进行体外孵育,未显示出明显的补体裂解。我们的结果表明,在非人类灵长类动物中,体内产生的凝血酶和纤溶酶不会直接激活补体。