Si Yue, Pulliam Anna C, Linka Yvonne, Ciccone Samantha, Leurs Cordula, Yuan Jin, Eckermann Olaf, Fruehauf Stefan, Mooney Sean, Hanenberg Helmut, Clapp D Wade
Departments of Microbiology and Immunology, Herman B Wells Center for Pediatric Research, Indiana University School of Medicine,Indianapolis, USA.
Blood. 2008 Dec 1;112(12):4458-65. doi: 10.1182/blood-2007-07-102947. Epub 2008 Aug 6.
Fanconi anemia (FA) is a complex genetic disorder characterized by congenital abnormalities, bone marrow failure, and myeloid malignancies. Identification of 13 FA genes has been instrumental to explore gene transfer technologies aimed at correction of autologous FA-deficient stem cells. To date, 3 human FA stem cell gene therapy trials with standard 4-day transduction protocols using gammaretroviral vectors failed to provide clinical benefit. In addition, 2- to 4 day ex vivo manipulation of bone marrow from mice containing a disruption of the homologue of human FANCC (Fancc) results in a time-dependent increase in apoptosis and a risk for malignant transformation of hematopoietic cells. Here, we show that a 14-hour transduction period allows a foamyviral vector construct expressing the human FANCC cDNA to efficiently transduce murine FA stem cells with 1 to 2 proviral integrations per genome. Functionally, the repopulating activity of Fancc(-/-) stem cells from reconstituted mice expressing the recombinant FANCC transgene was comparable with wild-type controls. Collectively, these data provide evidence that short-term transduction of c-kit(+) cells with a foamyviral vector is sufficient for functional correction of a stem cell phenotype in a murine FA model. These data could have implications for future gene therapy trials for FA patients.
范可尼贫血(FA)是一种复杂的遗传性疾病,其特征为先天性异常、骨髓衰竭和髓系恶性肿瘤。13个FA基因的鉴定有助于探索旨在纠正自体FA缺陷干细胞的基因转移技术。迄今为止,3项使用γ逆转录病毒载体的标准4天转导方案的人类FA干细胞基因治疗试验未能带来临床益处。此外,对含有人类FANCC(Fancc)同源物破坏的小鼠骨髓进行2至4天的体外操作会导致凋亡随时间增加,以及造血细胞发生恶性转化的风险。在此,我们表明14小时的转导期允许表达人类FANCC cDNA的泡沫病毒载体构建体以每个基因组1至2个前病毒整合的效率有效转导小鼠FA干细胞。在功能上,表达重组FANCC转基因的重建小鼠中Fancc(-/-)干细胞的重新填充活性与野生型对照相当。总体而言,这些数据提供了证据,即使用泡沫病毒载体对c-kit(+)细胞进行短期转导足以在小鼠FA模型中对干细胞表型进行功能纠正。这些数据可能对未来FA患者的基因治疗试验有影响。