Pharmacology & Toxicology, Research, CSL Innovation GmbH, Marburg, Hesse, Germany; Institute of Pharmacology, Biochemical-Pharmacological Center, University of Marburg, Marburg, Hesse, Germany.
Pharmacology & Toxicology, Research, CSL Innovation GmbH, Marburg, Hesse, Germany.
J Thromb Haemost. 2024 Oct;22(10):2713-2723. doi: 10.1016/j.jtha.2024.07.007. Epub 2024 Jul 15.
The X-linked bleeding disorder hemophilia B, caused by mutation(s) in the coagulation factor (F)IX gene, leads to partial or total loss of its function, requiring lifelong FIX replacement therapy. Although new recombinant FIX (rIX) therapeutics like albumin fusion proteins (rIX-FP) enable longer plasma half-life and thus less frequent administration, the complexity of intravenous (i.v.) injection remains.
The study aimed to characterize rIX-FP variants with anticipated enhanced specific activity, which would leverage rIX-FP's superior pharmacokinetic profile with beneficial characteristics for subcutaneous (s.c.) administration.
Two rIX-FP variants, R338L ("Padua variant") and R338L/E410K, were characterized in vitro. Pharmacokinetic profiles of FIX antigen and activity levels were evaluated in FIX-deficient mice after i.v. and s.c. administration of these variants (dosing based on antigen levels). The efficacy of the most promising variant was tested after i.v. and s.c. administration (dosing based on activity) in a tail clip bleeding model. A marketed wild-type (WT) rIX-FP product served as the comparator.
Both rIX-FP variants showed a 4- to 5-fold increase in specific activity in vitro compared with rIX(WT)-FP, while FXIa-mediated activation was the fastest for rIX(WT)-FP and rIX(R338L)-FP. Compared with rIX(WT)-FP and rIX(R338L/E410K)-FP, rIX(R338L)-FP exhibited higher FIX activity exposure after i.v. and s.c. administration and demonstrated comparable efficacy with rIX(WT)-FP in reducing bleeding time and blood loss in FIX-deficient mice requiring ∼4 times lower protein amount.
rIX(R338L)-FP was shown to be a promising candidate for s.c. administration, exhibiting increased specific activity combined with higher activity-based exposure and indicating efficacy at a lower protein dose.
由凝血因子 (FIX) 基因的突变引起的 X 连锁出血性疾病血友病 B 导致其部分或完全丧失功能,需要终身进行 FIX 替代治疗。尽管新型重组 FIX(rIX)治疗药物,如白蛋白融合蛋白(rIX-FP)可延长其血浆半衰期,从而减少给药频率,但静脉 (i.v.) 注射的复杂性依然存在。
本研究旨在研究具有预期增强的比活性的 rIX-FP 变体,该变体将利用 rIX-FP 优越的药代动力学特征,具有皮下 (s.c.) 给药的有益特性。
对两种 rIX-FP 变体,R338L(“Padua 变体”)和 R338L/E410K,进行了体外鉴定。通过静脉 (i.v.) 和皮下 (s.c.) 给予这些变体后,评估 FIX 抗原和活性水平在 FIX 缺乏的小鼠中的药代动力学特征(根据抗原水平进行给药)。根据活性(根据活性进行给药),在尾夹出血模型中测试最有前途的变体的疗效。市售的野生型 (WT) rIX-FP 产品作为对照。
与 rIX(WT)-FP 相比,两种 rIX-FP 变体在体外均显示出比活性提高了 4 至 5 倍,而 FXIa 介导的激活对 rIX(WT)-FP 和 rIX(R338L)-FP 最快。与 rIX(WT)-FP 和 rIX(R338L/E410K)-FP 相比,rIX(R338L)-FP 显示出更高的 FIX 活性暴露量,在 i.v.和 s.c.给药后,rIX(R338L)-FP 表现出与 rIX(WT)-FP 相当的疗效,可减少需要约 4 倍低蛋白量的 FIX 缺乏小鼠的出血时间和失血量。
rIX(R338L)-FP 是一种很有前途的 s.c.给药候选药物,表现出比活性提高,同时具有更高的活性基础暴露,表明在较低蛋白剂量下具有疗效。
