慢病毒介导的血小板基因治疗对具有抗因子 VIII 免疫的小鼠血友病 A。
Lentivirus-mediated platelet gene therapy of murine hemophilia A with pre-existing anti-factor VIII immunity.
机构信息
Department of Pediatrics, Medical College of Wisconsin, Blood Research Institute, BloodCenter of Wisconsin, Children's Research Institute, Children's Hospital of Wisconsin, Milwaukee, WI 53226, USA.
出版信息
J Thromb Haemost. 2012 Aug;10(8):1570-80. doi: 10.1111/j.1538-7836.2012.04791.x.
BACKGROUND
The development of inhibitory antibodies, referred to as inhibitors, against exogenous factor VIII in a significant subset of patients with hemophilia A remains a persistent challenge to the efficacy of protein replacement therapy. Our previous studies using the transgenic approach provided proof-of-principle that platelet-specific expression could be successful in treating hemophilia A in the presence of inhibitory antibodies.
OBJECTIVE
To investigate a clinically translatable approach for platelet gene therapy of hemophilia A with pre-existing inhibitors.
METHODS
Platelet FVIII expression in preimmunized FVIII(null) mice was introduced by transplantation of lentivirus-transduced bone marrow or enriched hematopoietic stem cells. FVIII expression was determined with a chromogenic assay. The transgene copy number per cell was quantitated with real-time PCR. Inhibitor titer was measured with the Bethesda assay. Phenotypic correction was assessed by the tail clipping assay and an electrolytically induced venous injury model. Integration sites were analyzed with linear amplification-mediated PCR.
RESULTS
Therapeutic levels of platelet FVIII expression were sustained in the long term without evoking an anti-FVIII memory response in the transduced preimmunized recipients. The tail clip survival test and the electrolytic injury model confirmed that hemostasis was improved in the treated animals. Sequential bone marrow transplants showed sustained platelet FVIII expression resulting in phenotypic correction in preimmunized secondary and tertiary recipients.
CONCLUSIONS
Lentivirus-mediated platelet-specific gene transfer improves hemostasis in mice with hemophilia A with pre-existing inhibitors, indicating that this approach may be a promising strategy for gene therapy of hemophilia A even in the high-risk setting of pre-existing inhibitory antibodies.
背景
在相当一部分血友病 A 患者中,对外源性因子 VIII 产生抑制性抗体(简称抑制剂)的问题仍然是蛋白替代疗法疗效的一个持续挑战。我们之前使用转基因方法的研究提供了初步证据,证明在存在抑制剂的情况下,血小板特异性表达可以成功治疗血友病 A。
目的
研究一种具有临床转化潜力的方法,用于治疗存在抑制剂的血友病 A 患者的血小板基因治疗。
方法
通过移植携带慢病毒转导的骨髓或富集造血干细胞,在预先免疫的 FVIII(null) 小鼠中引入血小板 FVIII 表达。通过显色测定法确定 FVIII 表达。用实时 PCR 定量细胞内的转基因拷贝数。用 Bethesda 测定法测量抑制剂滴度。通过尾巴夹断试验和电诱导静脉损伤模型评估表型校正。用线性扩增介导 PCR 分析整合位点。
结果
在转导的预先免疫接受者中,长期维持了治疗水平的血小板 FVIII 表达,而没有引发抗 FVIII 记忆反应。尾巴夹断存活试验和电损伤模型证实,治疗动物的止血功能得到了改善。连续骨髓移植显示,血小板 FVIII 表达持续,在预先免疫的二级和三级接受者中导致表型校正。
结论
慢病毒介导的血小板特异性基因转移可改善存在抑制剂的血友病 A 小鼠的止血功能,表明该方法可能是血友病 A 基因治疗的一种有前途的策略,即使在存在预先存在的抑制性抗体的高风险环境中也是如此。
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