Biologic aspects of expression of stably integrated transgenes in cells of the skin in vitro and in vivo.

G G Krueger, J R Morgan, M J Petersen
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引用次数: 14

Abstract

The observation that transgenes can be stably integrated into the genome of fibroblasts using recombinant retroviruses enhanced interest in using these cells as a vector for gene therapy. This enthusiasm has lessened during the past 8 years, not because skin has lost the features that make it attractive for gene therapy, but rather because stable transgene expression in vivo has not been achieved. All investigators who have used genetically modified fibroblasts to study in vivo aspects of gene therapy have shown a decrease in transgene expression with time. This contrasts with transgene expression in similarly transduced fibroblasts in vitro, where expression is not lost or is lost very slowly. We have initiated an approach to bring further understanding to the biology of transgene expression by fibroblasts carrying stably integrated transgenes in an in vivo setting. Experiments described permit the following conclusions. Expression by and survival of genetically modified fibroblasts a) requires a persistent matrix scaffold in in vivo settings; b) is prolonged if the matrix is allowed to mature in vitro; c) is enhanced if the matrix is partially sequestered behind a coating of normal fibroblasts; and d) can be substantively prolonged in vivo by immortalizing the cells. These observations support the notion that prolonged expression of transgenes by fibroblasts can be achieved in vivo and that gene therapy utilizing fibroblasts and other cells of the skin has clinical utility.

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体外和体内皮肤细胞中稳定整合转基因表达的生物学方面。
利用重组逆转录病毒将转基因稳定地整合到成纤维细胞的基因组中,这一发现增强了利用这些细胞作为基因治疗载体的兴趣。在过去的8年里,这种热情有所减弱,不是因为皮肤已经失去了对基因治疗有吸引力的特征,而是因为在体内还没有实现稳定的转基因表达。所有使用转基因成纤维细胞研究体内基因治疗的研究人员都表明,转基因表达随着时间的推移而减少。这与体外类似转导成纤维细胞中的转基因表达形成对比,后者的表达不会丢失或丢失得非常缓慢。我们已经启动了一种方法,以进一步了解在体内环境中通过携带稳定整合转基因的成纤维细胞表达转基因的生物学。所描述的实验可以得出下列结论。基因修饰成纤维细胞的表达和存活a)在体内需要一个持久的基质支架;B)如果让基质在体外成熟,则延长;C)如果基质部分被隔离在正常成纤维细胞的涂层后,则增强;d)可以通过使细胞永生而在体内大幅延长寿命。这些观察结果支持了成纤维细胞在体内长时间表达转基因的观点,并且利用成纤维细胞和其他皮肤细胞进行基因治疗具有临床应用价值。
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