Biologics Research, Bayer HealthCare Pharmaceuticals, San Francisco, CA 94158, USA.
Haemophilia. 2013 Jul;19(4):539-45. doi: 10.1111/hae.12116. Epub 2013 Mar 28.
PEGylation of B-domain deleted factor VIII (PEG-FVIII-BDD) prolongs the half-life of the molecule by approximately twofold in animals (Mei et al., Blood 2010; 116: 270). To investigate the role of von Willebrand factor (vWF) in the catabolism of PEG-FVIII-BDD in vivo, a FVIII-BDD mutant (F8V), which is incapable of binding vWF, was generated by deleting the vWF-binding region in the a3 domain of FVIIII-BDD. F8V was expressed, purified and PEGylated by site-specific conjugation. The biochemical and biological properties of F8V and PEGylated F8V (PEG-F8V) were evaluated in vitro and in vivo. The specific activity of purified F8V by a chromogenic assay was similar to FVIII-BDD and PEGylation had minimal impact on the specific activity of F8V in this assay. Analysis by Biacore indicated that both F8V and PEG-F8V display greatly reduced vWF binding in vitro. Pharmacokinetic studies in FVIII knockout (HaemA) mice showed that the terminal half-life (T1/2 ) of F8V was dramatically reduced relative to FVIII-BDD (0.6 h vs. 6.03 h). PEGylation of F8V promoted a significant increase in T1/2 , although PEGylation did not fully compensate for the loss in vWF binding. PEG-F8V showed a shorter T1/2 than PEG-FVIII-BDD both in HaemA mice (7.7 h vs. 14.3 h) and in Sprague-Dawley male rats (2.0 ± 0.3 h vs. 6.0 ± 0.5 h). These data demonstrated that vWF contributes to the longer T1/2 of PEG-FVIII-BDD. Furthermore, this suggests that the clearance of the FVIII:vWF complex, through vWF receptors, is not the sole factor which places an upper limit on the duration of PEG-FVIII circulation in plasma.
BD 结构域缺失的因子 VIII(PEG-FVIII-BDD)的聚乙二醇化作用使该分子在动物体内的半衰期延长约 2 倍(Mei 等人,Blood 2010;116:270)。为了研究血管性血友病因子(vWF)在体内 PEG-FVIII-BDD 代谢中的作用,通过缺失 FVIII-BDD 的 a3 结构域中的 vWF 结合区域生成了 FVIII-BDD 突变体(F8V),该突变体不能与 vWF 结合。F8V 被表达、纯化和通过位点特异性缀合聚乙二醇化。F8V 和聚乙二醇化的 F8V(PEG-F8V)的生化和生物学特性在体外和体内进行了评估。通过显色测定法对 F8V 进行的纯化后的比活性与 FVIII-BDD 相似,并且聚乙二醇化对该测定法中 F8V 的比活性几乎没有影响。Biacore 分析表明,F8V 和 PEG-F8V 均在体外显示出 vWF 结合大大降低。在 FVIII 敲除(HaemA)小鼠中的药代动力学研究表明,F8V 的终末半衰期(T1/2)相对于 FVIII-BDD 显著降低(0.6 h 与 6.03 h)。F8V 的聚乙二醇化促进了 T1/2 的显著增加,尽管聚乙二醇化不能完全弥补 vWF 结合的丧失。PEG-F8V 在 HaemA 小鼠中(7.7 h 与 14.3 h)和 Sprague-Dawley 雄性大鼠中(2.0 ± 0.3 h 与 6.0 ± 0.5 h)的 T1/2 均短于 PEG-FVIII-BDD。这些数据表明 vWF 有助于延长 PEG-FVIII-BDD 的 T1/2。此外,这表明通过 vWF 受体清除 FVIII:vWF 复合物不是将 PEG-FVIII 在血浆中的循环时间限制在上限的唯一因素。
