Lee Minhyung, Ryu Ji-Kan, Piao Shuguang, Choi Min Ji, Kim Hyun Ah, Zhang Lu-Wei, Shin Hwa-Yean, Jung Haeng In, Kim In-Hoo, Kim Sung Wan, Suh Jun-Kyu
Department of Bioengineering, College of Engineering, Hanyang University, Seoul, Korea.
J Sex Med. 2008 Jun;5(6):1355-64. doi: 10.1111/j.1743-6109.2008.00771.x. Epub 2008 Feb 25.
The application of gene therapy for a nonlife-threatening disease, such as erectile dysfunction (ED), requires a higher safety level and more efficacious systems for gene transfer.
To establish a novel technique for gene expression in a rat model of hypercholesterolemic ED that uses the RTP801 promoter, a hypoxia-inducible promoter.
Two-month-old male Sprague-Dawley rats were fed a diet containing 4% cholesterol and 1% cholic acid, and age-matched control animals were fed a normal diet, for 3 months.
Cavernous expression of hypoxia-inducible factor (HIF)-1alpha was evaluated by Western blot. After intracavernous injection of pSV-Luc or pRTP801-Luc, gene expression was evaluated by luciferase assay, and the gene expression area was evaluated by immunohistochemistry.
HIF-1alpha was up-regulated in the corpus cavernosum of hypercholesterolemic rats. Although pSV-Luc did not induce gene expression in either the control or the cholesterol group, pRTP801-Luc significantly induced gene expression in the cholesterol group and resulted in higher luciferase activity than did pSV-Luc up to 14 days after injection. Immunohistochemistry showed that the gene expression area was also greater in the pRTP801-Luc group than in the pSV-Luc group, but the difference was not as great as that in luciferase activity. This suggests that pRTP801-Luc exerts its effect mainly by inducing promoter activity under hypoxia, not by increasing the number of transfected cells.
The RTP801 promoter-driven gene expression system increased gene expression in the corpus cavernosum tissue of rats with cholesterol-induced ED. This may be a useful system for the development of gene therapy in vasculogenic ED.
将基因疗法应用于诸如勃起功能障碍(ED)这类非危及生命的疾病,需要更高的安全水平以及更有效的基因传递系统。
在高胆固醇血症性勃起功能障碍大鼠模型中建立一种利用缺氧诱导型启动子RTP801进行基因表达的新技术。
给2月龄雄性Sprague-Dawley大鼠喂食含4%胆固醇和1%胆酸的饲料,给年龄匹配的对照动物喂食正常饲料,持续3个月。
通过蛋白质免疫印迹法评估缺氧诱导因子(HIF)-1α在海绵体中的表达。在海绵体内注射pSV-Luc或pRTP801-Luc后,通过荧光素酶测定评估基因表达,并通过免疫组织化学评估基因表达区域。
高胆固醇血症大鼠海绵体内HIF-1α上调。虽然pSV-Luc在对照组或胆固醇组中均未诱导基因表达,但pRTP801-Luc在胆固醇组中显著诱导了基因表达,并且在注射后长达14天内产生的荧光素酶活性高于pSV-Luc。免疫组织化学显示,pRTP801-Luc组的基因表达区域也大于pSV-Luc组,但差异不如荧光素酶活性差异大。这表明pRTP801-Luc主要通过在缺氧条件下诱导启动子活性发挥作用,而非通过增加转染细胞数量。
RTP801启动子驱动的基因表达系统增加了胆固醇诱导的勃起功能障碍大鼠海绵体组织中的基因表达。这可能是一种用于血管源性勃起功能障碍基因治疗开发的有用系统。
