封装的人原代成肌细胞在血友病小鼠中递送功能性人FIX。

Encapsulated human primary myoblasts deliver functional hFIX in hemophilic mice.

作者信息

Wen Jianping, Xu Nong, Li Anna, Bourgeois Jacqueline, Ofosu Frederick A, Hortelano Gonzalo

机构信息

Research & Development, Canadian Blood Services, McMaster University, Hamilton, Ontario, L8N 3Z5 Canada.

出版信息

J Gene Med. 2007 Nov;9(11):1002-10. doi: 10.1002/jgm.1098.

DOI:10.1002/jgm.1098

PMID:17868187

Abstract

BACKGROUND

Hemophilia B is a bleeding disorder caused by defective factor IX (FIX), currently treated by regular infusions of plasma-derived or recombinant FIX. We propose a gene therapy strategy based on the implantation of cells secreting FIX enclosed in alginate microcapsules as a highly desirable alternative treatment. We have reported sustained delivery of human factor IX (hFIX) in immunocompetent mice implanted with encapsulated primary mouse myoblasts engineered to secrete hFIX. As a step towards the treatment of human patients, in this study we report the implantation of encapsulated human primary myoblasts secreting hFIX in hemophilia B mice.

METHODS

Human primary myoblasts were transfected with plasmids pKL4M-hFIX, pLNM-betaIXL, pMFG-hFIX, and transduced with retrovirus MFG-hFIX. Two human primary myoblast clones secreting approximately 1 microg hFIX/10(6) cells/day were enclosed in biocompatible alginate microcapsules and implanted intraperitoneally into SCID and hemophilic mice.

RESULTS

Circulating hFIX (peak of approximately 120 ng/ml) was detected in hemophilia B mice on day 1 after implantation. Human FIX delivery was transient, however, becoming undetectable on day 14. Concurrently, anti-hFIX antibodies were detected. At the same time, activated partial thromboplastin time (APTT) was reduced from 94 s before treatment to 78-80 s. Tail bleeding time decreased from 15 min to 1.5-7 min after treatment, some mice being normalised. These findings indicate that the delivered hFIX is biologically active. Similarly treated NOD/SCID mice had circulating hFIX levels of 170 ng/ml on day 1 that remained detectable for 1 month, albeit at low levels. Cell viability of microcapsules retrieved on day 60 was below 5%.

CONCLUSIONS

Our findings indicate that encapsulated human primary myoblasts secrete functional hFIX. Furthermore, implantation of encapsulated human primary myoblasts can partially correct the phenotype of hemophilia B mice, supporting the feasibility of this gene therapy approach for hemophilia B. However, the long-term viability of the encapsulated human myoblasts must first be improved.

摘要

背景

B型血友病是一种由凝血因子IX（FIX）缺陷引起的出血性疾病，目前通过定期输注血浆源性或重组FIX进行治疗。我们提出了一种基因治疗策略，即植入包裹在藻酸盐微胶囊中的分泌FIX的细胞，作为一种非常理想的替代治疗方法。我们已经报道，在植入经基因工程改造以分泌人FIX（hFIX）的封装原代小鼠成肌细胞的免疫活性小鼠中，hFIX能够持续释放。作为迈向治疗人类患者的一步，在本研究中，我们报道了在B型血友病小鼠中植入分泌hFIX的封装人原代成肌细胞。

方法

用人FIX质粒pKL4M-hFIX、pLNM-betaIXL、pMFG-hFIX转染人原代成肌细胞，并用逆转录病毒MFG-hFIX进行转导。将两个每天分泌约1微克hFIX/10⁶细胞的人原代成肌细胞克隆封装在生物相容性藻酸盐微胶囊中，并腹腔内植入SCID小鼠和血友病小鼠体内。

结果

在植入后第1天，在B型血友病小鼠中检测到循环hFIX（峰值约为120纳克/毫升）。然而，人FIX的释放是短暂的，在第14天变得无法检测到。同时，检测到抗hFIX抗体。与此同时，活化部分凝血活酶时间（APTT）从治疗前的94秒降至78 - 80秒。治疗后尾部出血时间从15分钟降至1.5 - 7分钟，一些小鼠恢复正常。这些发现表明所递送的hFIX具有生物活性。同样处理的NOD/SCID小鼠在第1天的循环hFIX水平为170纳克/毫升，尽管水平较低，但在1个月内仍可检测到。在第60天回收的微胶囊的细胞活力低于5%。