Department of Internal Medicine, University of Texas Southwestern Medical Center, Dallas, TX 75390-8573, USA.
Cancer Gene Ther. 2010 Jun;17(6):375-86. doi: 10.1038/cgt.2010.1. Epub 2010 Feb 5.
Using biochemical, imaging and histological methods, we employed transcriptional targeting to increase the specificity of tumor gene expression in vivo for intravenously administered recombinant adenovirus vectors. Surprisingly, the relative specificity of tumor expression in comparison with other tissues was increased for a constitutively expressing recombinant adenovirus, AdCMVLuc, by simply reducing the viral dose. Even at lower doses, however, the high frequency of viral infection and transgene expression in the liver using constitutive promoters still represents a substantial problem. To further augment tumor specificity, we constructed a series of adenoviruses expressing luciferase from several other promoters and tested their ability to selectively transcribe genes in tumor cells, both in vitro and in vivo. Constitutively active viral promoters (RSV, SRalpha) varied widely in their tumor selectivity, but hypoxia-responsive promoters (carbonic anhydrase 9, PAI-1, SOD2 and several chimeric constructs) showed the most tumor-selective expression. Our results show that tumor targeting to HT1080 fibrosarcomas was readily achieved using transcriptional targeting mechanisms. We attribute the relatively high level of gene transfer and expression in HT1080 tumors in vivo to increased viral access to the tumor, presumably due to discontinuities in tumor vasculature and augmented expression from stress-responsive promoters in the hypoxic and inflammatory tumor microenvironment.
我们采用生化、成像和组织学方法,通过转录靶向,增加了静脉内给予重组腺病毒载体后肿瘤基因表达的体内特异性。令人惊讶的是,与其他组织相比,通过简单地降低病毒剂量,即可提高持续表达重组腺病毒 AdCMVLuc 的肿瘤表达的相对特异性。然而,即使在较低剂量下,使用组成性启动子,腺病毒在肝脏中的高感染率和转基因表达仍然是一个重大问题。为了进一步增强肿瘤特异性,我们构建了一系列表达来自其他启动子的荧光素酶的腺病毒,并测试了它们在体外和体内选择性转录肿瘤细胞中基因的能力。组成性激活的病毒启动子(RSV、SRalpha)在肿瘤选择性方面差异很大,但缺氧反应性启动子(碳酸酐酶 9、PAI-1、SOD2 和几种嵌合构建体)表现出最具肿瘤选择性的表达。我们的结果表明,使用转录靶向机制很容易实现 HT1080 纤维肉瘤的肿瘤靶向。我们将 HT1080 肿瘤中相对较高的基因转移和表达水平归因于肿瘤中病毒的进入增加,这可能是由于肿瘤血管的不连续性和缺氧及炎症肿瘤微环境中应激反应启动子的增强表达所致。
