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补体途径与凝血接触激活系统的串扰:激活的因子 XI 中和补体因子 H。

Cross-Talk between the Complement Pathway and the Contact Activation System of Coagulation: Activated Factor XI Neutralizes Complement Factor H.

机构信息

Department of Biomedical Engineering, Oregon Health & Science University, Portland, OR 97239;

Division of Hematology and Medical Oncology, School of Medicine, Oregon Health & Science University, Portland, OR 97239.

出版信息

J Immunol. 2021 Apr 15;206(8):1784-1792. doi: 10.4049/jimmunol.2000398.

DOI:10.4049/jimmunol.2000398
PMID:33811105
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8030746/
Abstract

Complement factor H (CFH) is the major inhibitor of the alternative pathway of the complement system and is structurally related to beta2-glycoprotein I, which itself is known to bind to ligands, including coagulation factor XI (FXI). We observed reduced complement activation when FXI activation was inhibited in a baboon model of lethal systemic inflammation, suggesting cross-talk between FXI and the complement cascade. It is unknown whether FXI or its activated form, activated FXI (FXIa), directly interacts with the complement system. We explored whether FXI could interact with and inhibit the activity of CFH. We found that FXIa neutralized CFH by cleavage of the R341/R342 bonds. FXIa reduced the capacity of CFH to enhance the cleavage of C3b by factor I and the decay of C3bBb. The binding of CFH to human endothelial cells was also reduced after incubating CFH with FXIa. The addition of either short- or long-chain polyphosphate enhanced the capacity of FXIa to cleave CFH. FXIa also cleaved CFH that was present on endothelial cells and in the secretome from blood platelets. The generation of FXIa in plasma induced the cleavage of CFH. Moreover, FXIa reduced the cleavage of C3b by factor I in serum. Conversely, we observed that CFH inhibited FXI activation by either thrombin or FXIIa. Our study provides, to our knowledge, a novel molecular link between the contact pathway of coagulation and the complement system. These results suggest that FXIa generation enhances the activity of the complement system and thus may potentiate the immune response.

摘要

补体因子 H(CFH)是补体系统替代途径的主要抑制剂,与β2-糖蛋白 I 结构相关,β2-糖蛋白 I 本身已知与包括凝血因子 XI(FXI)在内的配体结合。我们在致命性全身炎症的狒狒模型中观察到 FXI 激活受到抑制时补体激活减少,这表明 FXI 与补体级联之间存在串扰。尚不清楚 FXI 或其激活形式 FXIa 是否直接与补体系统相互作用。我们探讨了 FXI 是否可以与 CFH 相互作用并抑制其活性。我们发现 FXIa 通过裂解 R341/R342 键中和 CFH。FXIa 降低了 CFH 增强因子 I 对 C3b 的裂解和 C3bBb 衰减的能力。在用 FXIa 孵育 CFH 后,CFH 与人类内皮细胞的结合也减少。添加短链或长链多磷酸盐可增强 FXIa 裂解 CFH 的能力。FXIa 还裂解存在于内皮细胞和血小板分泌组中的 CFH。血浆中 FXIa 的产生诱导 CFH 的裂解。此外,FXIa 降低了血清中因子 I 对 C3b 的裂解。相反,我们观察到 CFH 抑制了凝血酶或 FXIIa 对 FXI 的激活。据我们所知,我们的研究提供了凝血的接触途径与补体系统之间的新的分子联系。这些结果表明 FXIa 的产生增强了补体系统的活性,从而可能增强免疫反应。

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