预先选择的人类表皮干细胞群体的转导:基因治疗的后果。

J R Bickenbach, D R Roop
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引用次数: 25

摘要

不断更新的组织,如表皮,是由一系列分裂的瞬时扩增细胞组成的,这些细胞由干细胞维持。瞬时扩增细胞通过分裂来维持组织,但在分化和脱落之前,它们的细胞分裂次数是有限的。只有干细胞在组织的生命周期中保留下来。因此,在设计基因治疗方案治疗遗传性疾病(如单纯大疱性表皮松解症(EBS))时,靶向干细胞是至关重要的。不幸的是,分离纯上皮干细胞一直存在问题。在这项研究中,我们使用快速粘附型胶原成功地从成人皮肤中富集表皮干细胞。这些预先选择的干细胞增殖缓慢,但它们最终形成了大型菌落。当干细胞与真皮底物AlloDerm重组时,将AlloDerm提升至气液界面后1周内,干细胞重新形成层状鳞状表皮。这些器官型培养物持续生长,即使在培养6周后,它们仍保持着增殖的基底层。当用逆转录病毒LacZ载体转导时,预先选择的干细胞在淹没培养和器官型培养中形成β -半乳糖苷酶阳性克隆。转导的细胞在器官型培养中持续表达了12周,证明了使用预先选择的干细胞进行基因治疗的可行性。目前,我们正在开发两种EBS模型,以测试基因治疗方法。该方法的前提是,将角蛋白(K)14突变基因纠正为野生型的EBS干细胞比未纠正的EBS干细胞具有生长优势。
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Transduction of a preselected population of human epidermal stem cells: consequences for gene therapy.

Continuously renewing tissues, such as the epidermis, are populated by a hierarchy of dividing transient amplifying cells, which are maintained by stem cells. Transient amplifying cells divide to maintain the tissue, but they are limited to a finite number of cell divisions before they differentiate and are sloughed. Only the stem cells remain for the life of the tissue. Thus, it is critical to target stem cells when designing gene therapy regimes for genetically inherited diseases, such as epidermolysis bullosa simplex (EBS). Unfortunately, isolating pure epithelial stem cells has been problematic. In this study, we used rapid adherence to collagen type IV to successfully enrich for epidermal stem cells from adult human skin. These preselected stem cells were slow to proliferate, but they ultimately formed large colonies. When recombined with the dermal substrate AlloDerm, the stem cells re-formed a stratified squamous epidermis within 1 week after raising the AlloDerm to the air-liquid interface. These organotypic cultures grew continuously and, even after 6 weeks in culture, they maintained a proliferative basal layer. When transduced with a retroviral LacZ vector, preselected stem cells formed beta-galactosidase-positive clones in submerged and organotypic cultures. Transduced cells showed persistent expression through 12 weeks in organotypic culture, demonstrating the feasibility of using preselected stem cells for gene therapy. Currently, we are developing two models of EBS to test a gene therapy approach, which is based on the premise that EBS stem cells with a mutant keratin (K)14 gene corrected to wild type will have a growth advantage over noncorrected EBS stem cells.

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