羧肽酶 B 在纤维蛋白溶解易感性中的双重作用

Ambivalent roles of carboxypeptidase B in the lytic susceptibility of fibrin.

机构信息

Department of Medical Biochemistry, Semmelweis University, Budapest, Hungary.

Institute of Materials and Environmental Chemistry, Research Centre for Natural Sciences, Hungarian Academy of Sciences, Budapest, Hungary.

出版信息

Thromb Res. 2014 Jan;133(1):80-7. doi: 10.1016/j.thromres.2013.09.017. Epub 2013 Sep 21.

DOI:10.1016/j.thromres.2013.09.017

PMID:24094605

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3891004/

Abstract

BACKGROUND

Removal of C-terminal lysine residues that are continuously exposed in lysing fibrin is an established anti-fibrinolytic mechanism dependent on the plasma carboxypeptidase TAFIa, which also removes arginines that are exposed at the time of fibrinogen clotting by thrombin.

OBJECTIVE

To evaluate the impact of alterations in fibrin structure mediated by constitutive carboxypeptidase activity on the function of fibrin as a template for tissue plasminogen activator-(tPA) induced plasminogen activation and its susceptibility to digestion by plasmin.

METHODS AND RESULTS

We used the stable carboxypeptidase B (CPB), which shows the same substrate specificity as TAFIa. If 1.5 - 6μM fibrinogen was clotted in the presence of 8U/mL CPB, a denser fibrin network was formed with thinner fibers (the median fiber diameter decreased from 138 - 144nm to 89 - 109nm as established with scanning electron microscopy). If clotting was initiated in the presence of 5 - 10μM arginine, a similar decrease in fiber diameter (82 -95nm) was measured. The fine structure of arginine-treated fibrin enhanced plasminogen activation by tPA, but slowed down lysis monitored using fluorescent tPA and confocal laser microscopy. However, if lysis was initiated with plasmin in CPB-treated fibrin, the rate of dissolution increased to a degree corresponding to doubling of the plasmin concentration.

CONCLUSION

The present data evidence that CPB activity generates fine-mesh fibrin which is more difficult to lyse by tPA, but conversely, CPB and plasmin together can stimulate fibrinolysis, possibly by enhancing plasmin diffusion.

摘要

背景

在裂解纤维蛋白时，连续暴露的 C 末端赖氨酸残基的去除是一种依赖于血浆羧肽酶 TAFIa 的已确立的抗纤维蛋白溶解机制，该酶还去除了纤维蛋白原凝血时暴露的精氨酸。

目的

评估由组成型羧肽酶活性介导的纤维蛋白结构变化对纤维蛋白作为组织纤溶酶原激活物-(tPA)诱导纤溶酶原激活的模板的功能的影响及其对纤溶酶消化的敏感性。

方法和结果

我们使用稳定的羧肽酶 B (CPB)，其具有与 TAFIa 相同的底物特异性。如果在 8U/mL CPB 的存在下凝结 1.5-6μM 的纤维蛋白原，形成的纤维蛋白网络更密集，纤维更细（用扫描电子显微镜确定纤维直径从 138-144nm 减小到 89-109nm）。如果在存在 5-10μM 精氨酸的情况下引发凝结，则测量到类似的纤维直径减小（82-95nm）。精氨酸处理的纤维蛋白的精细结构增强了 tPA 对纤溶酶原的激活，但用荧光 tPA 和共聚焦激光显微镜监测到的溶解速度减慢。然而，如果在 CPB 处理的纤维蛋白中用纤溶酶启动溶解，则溶解速率增加到与纤溶酶浓度增加一倍相对应的程度。

结论

目前的数据表明，CPB 活性产生的纤维蛋白网更细，更难被 tPA 溶解，但相反，CPB 和纤溶酶一起可以刺激纤维蛋白溶解，可能通过增强纤溶酶的扩散。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/88cb/3891004/4eef5340086f/gr1.jpg

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羧肽酶 B 在纤维蛋白溶解易感性中的双重作用

Ambivalent roles of carboxypeptidase B in the lytic susceptibility of fibrin.

机构信息

出版信息

BACKGROUND

OBJECTIVE

METHODS AND RESULTS

CONCLUSION

背景

目的

方法和结果

结论

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