重组水蛭素与具有蛋白质结合位点的新型离子型聚（碳酸酯）聚氨酯聚合物的共价连接：表面抗凝血酶活性的测定

Covalent linkage of recombinant hirudin to a novel ionic poly(carbonate) urethane polymer with protein binding sites: determination of surface antithrombin activity.

作者信息

Phaneuf M D, Szycher M, Berceli S A, Dempsey D J, Quist W C, LoGerfo F W

机构信息

Department of Surgery, Beth Israel Deaconess Medical Center, Harvard Medical School, Boston, Massachusetts, USA.

出版信息

Artif Organs. 1998 Aug;22(8):657-65. doi: 10.1046/j.1525-1594.1998.05091.x.

DOI:10.1046/j.1525-1594.1998.05091.x

PMID:9702317

Abstract

Surface thrombus formation on implantable biomaterials such as polyurethane is a major concern when utilizing these materials in the clinical setting. Thrombin, which is responsible for thrombus formation and smooth muscle cell activation, has been the target of numerous surface modification strategies in an effort to prevent this phenomenon from occurring. The purpose of this study was to covalently immobilize the potent, specific antithrombin agent recombinant hirudin (rHir) onto a novel polyurethane polymer synthesized with carboxylic acid groups which served as protein attachment sites. The in vitro efficacy of thrombin inhibition by this novel biomaterial surface was then evaluated. Bovine serum albumin (BSA), which was selected as the basecoat protein, was reacted with sulfo-SMCC in a 1:50 molar ratio. This BSA-SMCC complex was then covalently linked to the carboxylated polyurethane (cPU) surface via the crosslinker EDU (cPU-BSA-SMCC). This cPU-BSA-SMCC surface was then reacted with Traut's-modified 125I-rHir, a procedure which created free sulfhydryl groups on rHir (cPU-BSA-SMCC-S-125I-rHir). Using these crosslinking procedures, the cPU-BSA-SMCC-S-125I-rHir segments bound 188 +/- 40 ng/cm2 (n = 60) whereas the controls with non-specifically bound 125I-rHir (Mitrathane + EDC + BSA + 125I-rHir-SH and cPU-BSA + 125I-rHir-SH) bound 13 +/- 8 ng/cm2 and 4 +/- 8 ng/cm2, respectively. Evaluation of these cPU-BSA-SMCC-S-125I-rHir segments for 131I-thrombin inhibition using a chromogenic assay for thrombin showed that a maximum of 2.64 NIHU thrombin was inhibited in contrast to the controls which inhibited bound 0.76 and 0.70 NIHU. Controls with nonspecifically bound 125I-rHir also had 0.31 and 0.76 NIHU 131I-thrombin adherent to their respective surfaces whereas the maximum 131I-thrombin binding to the cPU-BSA-SMCC-S-rHir segments was 1.51 NIHU. Exposure to 131I-thrombin did not result in any release of covalently bound 125I-rHir from the cPU-BSA-SMCC-S-125I-rHir segments. Thus, these results demonstrate that rHir can be covalently bound to this novel polyurethane surface and still maintain potent antithrombin activity.

摘要

在临床环境中使用聚氨酯等可植入生物材料时，其表面血栓形成是一个主要问题。凝血酶负责血栓形成和平滑肌细胞活化，为防止这种现象发生，它一直是众多表面改性策略的目标。本研究的目的是将强效、特异性抗凝血酶剂重组水蛭素（rHir）共价固定在一种合成的新型聚氨酯聚合物上，该聚合物带有羧酸基团作为蛋白质附着位点。然后评估这种新型生物材料表面抑制凝血酶的体外效果。选择牛血清白蛋白（BSA）作为底涂层蛋白，使其与磺基 - SMCC以1:50的摩尔比反应。然后通过交联剂EDU将这种BSA - SMCC复合物共价连接到羧化聚氨酯（cPU）表面（cPU - BSA - SMCC）。然后使该cPU - BSA - SMCC表面与经Traut修饰的125I - rHir反应，该过程在rHir上产生游离巯基（cPU - BSA - SMCC - S - 125I - rHir）。使用这些交联程序，cPU - BSA - SMCC - S - 125I - rHir片段结合了188±40 ng/cm2（n = 60），而用非特异性结合125I - rHir的对照（Mitrathane + EDC + BSA + 125I - rHir - SH和cPU - BSA + 125I - rHir - SH）分别结合了13±8 ng/cm2和4±8 ng/cm2。使用凝血酶显色测定法评估这些cPU - BSA - SMCC - S - 125I - rHir片段对131I - 凝血酶的抑制作用，结果显示与对照相比，最大可抑制2.64 NIHU凝血酶，对照分别抑制了0.76和0.70 NIHU。非特异性结合125I - rHir的对照在其各自表面上还分别有0.31和0.76 NIHU的131I - 凝血酶附着，而cPU - BSA - SMCC - S - rHir片段上131I - 凝血酶的最大结合量为1.51 NIHU。暴露于131I - 凝血酶并未导致cPU - BSA - SMCC - S - 125I - rHir片段上共价结合的125I - rHir有任何释放。因此，这些结果表明rHir可以共价结合到这种新型聚氨酯表面，并且仍然保持强效的抗凝血酶活性。