黄杆菌24k-内肽酶降解纤维蛋白(原)。

Fibrinolysis and Proteolysis Pub Date : 2000-07-01 DOI:10.1054/FIPR.2000.0076

H. Lijnen, B. Hoef, I. Roelants, D. Collen

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摘要

摘要:从一种新的黄杆菌属物种的条件培养基中纯化出一种新的24k-内肽酶，可降解纯化的纤维蛋白原和纤维蛋白。当酶底物比为1/200:1/1000时，人纤维蛋白原α-链的快速降解和β-链的延迟降解发生，而γ-链的抗性更强。降解与凝血酶诱导凝血的丧失有关。24k-内肽酶(500 nM)在人血浆中37°C孵育3小时，纤维蛋白原降低到基线的38±7%，凝血酶时间从21±1增加到52±17 s。其他凝血因子及纤溶酶原无明显影响。经24k-内肽酶消化的纤维蛋白原添加到人血浆中不具有抗凝血特性。在缓冲环境中，125i -纤维蛋白标记的基质被24k-内肽酶以时间和浓度依赖的方式裂解。纯化的125i标记的纤维蛋白凝块(65 μl)在缓冲环境(500 μl)中也被有效地裂解，需要50 nM 24k内肽酶在1小时内裂解50%。在本实验中，生理纤维蛋白原浓度的存在不影响裂解。相比之下，24k-内肽酶(1 μM)与α2-巨球蛋白孵育24小时后，125i -纤维蛋白标记的血浆凝块(65 μl)在人血浆(500 μl)中没有明显的溶解。24k-内肽酶与α2-巨球蛋白孵育24小时后，形成了一个复合物，破坏了对纤维蛋白原的蛋白水解活性。这些结果表明，24k-内肽酶可能通过降解纤维蛋白原而降低血浆凝血能力，其在缓冲环境和血浆中对纤维蛋白的不同作用可能是由于α - 2巨球蛋白的抑制。

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Fibrin(ogen) degradation by a 24k-endopeptidase from a Chryseobacterium Sp.

Abstract Summary A novel 24k-endopeptidase purified from the conditioned medium of a novel species of the Chryseobacterium genus, degraded purified fibrinogen and fibrin. At an enzyme/substrate ratio of 1/200 to 1/1000 rapid degradation of the human fibrinogen α-chain occurred and delayed degradation of the β-chain, whereas the γ-chain was more resistant. Degradation was associated with loss of thrombin-inducible coagulation. Incubation of 24k-endopeptidase (500 nM) in human plasma at 37°C for 3 h resulted in a decrease in fibrinogen to 38 ± 7% of baseline, and an increase of the thrombin time from 21 ± 1 to 52 ± 17 s. Other coagulation factors as well as plasminogen were not significantly affected. Fibrinogen digested with 24k-endopeptidase did not confer anticoagulant properties when added to human plasma. In a buffer milieu,125I-fibrin labelled matrix was lysed in a time- and concentration-dependent manner by 24k-endopeptidase. Purified125I-labelled fibrin clots (65 μl) in a buffer milieu (500 μl) were also efficiently lysed, requiring 50 nM 24k-endopeptidase for 50% lysis in 1 h. The presence of a physiological fibrinogen concentration in this assay did not affect lysis. In contrast, no significant lysis of125I-fibrin labelled plasma clots (65 μl) in human plasma (500 μl) was observed upon incubation with 24k-endopeptidase (up to 1 μM) for up to 24 h. Incubation of 24k-endopeptidase with α2-macroglobulin resulted in formation of a complex with impaired proteolytic activity against fibrinogen. These findings indicate that 24k-endopeptidase may reduce plasma coagulability by degradation of fibrinogen and that its differential action on fibrin in a buffer milieu or in plasma may be due to inhibition by α2-macroglobulin.

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Fibrinolysis and Proteolysis

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