Lu B, Gupta S, Federoff H
Department of Molecular Genetics, Albert Einstein College of Medicine, Bronx, NY 10461.
Hepatology. 1995 Mar;21(3):752-9.
A defective amplicon herpes simplex virus-1 (HSV-1) vector, HSVlac, was used to transfer an E. coli lacZ reporter gene into primary hepatocytes. The lacZ gene was driven by the HSV immediate early (IE) 4/5 promoter. Use of the HSVlac vector resulted in highly efficient gene transfer. Because difficulties in culturing primary hepatocytes impose limitations in ex vivo gene therapy, we sought to determine whether use of the HSVlac vector could simplify gene transfer. Therefore, we incubated HSVlac with primary hepatocytes in suspension and found that the lacZ gene was still transferred with great rapidity and efficiency. To examine lacZ expression in transduced hepatocytes in vivo, we used a mouse hepatocyte transplantation system. In congeneic recipients of primary hepatocytes transduced with HSVlac in suspension, the lacZ gene was expressed in liver and spleen up to 2 weeks. However, survival of transplanted hepatocytes, as well as persistence of HSVlac genome in recipient organs, was demonstrated for up to an 11-week duration of the experiment. These findings suggest that in vivo regulation of the HSV IE4/5 promoter was responsible for the short-term expression of lacZ, which should be overcome by the use of liver-specific promoters. Therefore, our results indicate the feasibility of hepatic gene transfer with a defective HSV-1 vector.
一种有缺陷的扩增子单纯疱疹病毒1型(HSV-1)载体HSVlac,被用于将大肠杆菌β-半乳糖苷酶(lacZ)报告基因导入原代肝细胞。lacZ基因由HSV立即早期(IE)4/5启动子驱动。使用HSVlac载体可实现高效的基因转移。由于原代肝细胞培养困难限制了离体基因治疗,我们试图确定使用HSVlac载体是否能简化基因转移过程。因此,我们将HSVlac与悬浮状态的原代肝细胞共同孵育,发现lacZ基因仍能快速且高效地转移。为了检测转导的肝细胞在体内的lacZ表达情况,我们使用了小鼠肝细胞移植系统。在用悬浮状态的HSVlac转导的原代肝细胞的同基因受体中,lacZ基因在肝脏和脾脏中表达长达2周。然而,在长达11周的实验过程中,均证实了移植肝细胞的存活以及HSVlac基因组在受体器官中的持续存在。这些发现表明,HSV IE4/5启动子的体内调控导致了lacZ的短期表达,这一问题应通过使用肝脏特异性启动子来克服。因此,我们的结果表明了使用有缺陷的HSV-1载体进行肝脏基因转移的可行性。
