1 Gene Therapy Center, University of North Carolina , Chapel Hill, North Carolina.
2 Division of Molecular Pharmaceutics, Eshelman School of Pharmacy, University of North Carolina , Chapel Hill, North Carolina.
Hum Gene Ther. 2018 Mar;29(3):381-389. doi: 10.1089/hum.2017.094. Epub 2017 Oct 26.
The development of inhibitory autoantibodies to the infused clotting factor VIII (FVIII) is a major complication for severe hemophilia A management. Novel therapy options for hemophilia have significantly progressed in the last decade, and a gene therapy cure for hemophilia is becoming a reality. However, mechanistic studies of FVIII autoantibodies (FVIII inhibitors) have lagged behind and remain a challenge for both protein replacement and gene therapy. FVIII inhibitor formation is assumed to be a classical T cell-dependent immune response in which cytokines/chemokines play an important role. The study of cytokine profile changes during FVIII inhibitor development may be helpful to understand the mechanism of inhibitor development and to explore potential novel approaches that will minimize the risk. After FVIII mice were treated with intravenous administration of an adeno-associated virus 8 vector encoding human FVIII, FVIII expression peaked at week 2 (W2), and FVIII inhibitor was thoroughly developed at week 8 (W8). W8 plasma that showed positive FVIII inhibitor, and W2 samples with negative FVIII inhibitor (anti-FVIII[+]), were subjected to multiplex cytokines measurement. W8 and W2 samples were both negative for FVIII inhibitor (anti-FVIII[-]) as the control. In comparison to mice in the anti-FVIII(-) group, mice in the anti-FVIII(+) group exhibited significantly elevated pro-inflammatory cytokines of interleukin (IL)-1, IL-6, IL-12p40, monocyte chemoattractant protein-1, macrophage inflammatory protein (MIP)-1, MIP-2, and tumor necrosis factor alpha (TNF-α), especially at higher titers. The anti-inflammatory cytokine of transforming growth factor beta (TGF-β) was decreased at W2 in both groups. Multivariate analysis of the risk factors for FVIII inhibitor development showed peak FVIII activity at W2. IL-6 and TNF-α at W8 were positively correlated with inhibitor formation, and negatively correlated with the age starting gene therapy. Collectively, the elevated monocyte derived pro-inflammatory cytokines/chemokines, together with the decreased anti-inflammatory cytokine of TGF-β at an early time point, may contribute to the persistent inflammatory environment in favor of an immune response toward FVIII inhibitor development.
抑制性自身抗体对输注凝血因子 VIII (FVIII) 的发展是严重血友病 A 管理的主要并发症。在过去十年中,血友病的新型治疗选择取得了重大进展,血友病的基因治疗正在成为现实。然而,FVIII 自身抗体 (FVIII 抑制剂) 的机制研究落后了,这对蛋白替代和基因治疗都是一个挑战。FVIII 抑制剂的形成被认为是一种经典的 T 细胞依赖性免疫反应,其中细胞因子/趋化因子起着重要作用。研究 FVIII 抑制剂发展过程中细胞因子谱的变化可能有助于了解抑制剂发展的机制,并探索潜在的新方法,将风险降至最低。在 FVIII 小鼠经静脉给予携带人 FVIII 的腺相关病毒 8 载体后,FVIII 表达在第 2 周 (W2) 达到峰值,FVIII 抑制剂在第 8 周 (W8) 完全形成。显示阳性 FVIII 抑制剂的 W8 血浆和阴性 FVIII 抑制剂 (抗-FVIII[+]) 的 W2 样本进行了多重细胞因子测量。作为对照,W8 和 W2 样本均为 FVIII 抑制剂 (抗-FVIII[-]) 阴性。与抗-FVIII(-)组小鼠相比,抗-FVIII(+)组小鼠的促炎细胞因子白细胞介素 (IL)-1、IL-6、IL-12p40、单核细胞趋化蛋白-1、巨噬细胞炎性蛋白 (MIP)-1、MIP-2 和肿瘤坏死因子 α (TNF-α) 明显升高,尤其是在更高滴度时。两组在 W2 时抗炎细胞因子转化生长因子 β (TGF-β) 降低。FVIII 抑制剂发展的危险因素的多元分析显示,W2 时 FVIII 活性峰值。W8 时的 IL-6 和 TNF-α与抑制剂形成呈正相关,与开始基因治疗的年龄呈负相关。综上所述,早期单核细胞来源的促炎细胞因子/趋化因子升高,抗炎细胞因子 TGF-β 降低,可能导致持续的炎症环境有利于针对 FVIII 抑制剂的免疫反应。
