[使用缺氧/辐射双敏感启动子的肺腺癌异种移植瘤单纯疱疹病毒胸苷激酶基因治疗]

[HSV-TK gene therapy of lung adenocarcinoma xenografts using a hypoxia/radiation dual-sensitive promoter].

作者信息

Wang Wei-Dong, Chen Zheng-Tang, Li De-Zhi, Duan Yu-Zhong, Wang Zhi-Xin, Cao Zheng-Huai

机构信息

Cancer Center of PLA, Xinqiao Hospital, Third Military Medical University, Chongqing,400037, P.R.China.

出版信息

Ai Zheng. 2004 Jul;23(7):788-93.

PMID:15248913

Abstract

BACKGROUND & OBJECTIVE: Radio-genetic therapy is a novel strategy for cancer treatment; however, a limited success was shown due to lower sensitivity of tumor cells to radiation under hypoxia, which is a unique feature for solid tumors. In order to improve the efficacy of radiogenetic therapy for lung cancer, a hypoxia/radiation dual-sensitive promoter was constructed to enhance the expression of HSV-TK in transfected cells exposed to radiation under hypoxia.

METHODS

The chimeric promoter HRE-Egr was generated by insertion of hypoxia response elements (HREs) upstream of the Egr-1 (early growth response gene-1) promoter. HSV-TK expression vector was constructed by cloning HRE-Egr promoter upstream of HSV-TK gene, which was transfected into A549 cells via liposome. The expression of HSV-TK in transfected cells exposed to irradiation (6 Gy) and/or hypoxia (1% O2) were analyzed by Northern blot, and the relative survival rate of cells in presence of prodrug ganciclovir (GCV) was tested using MTT method. To examine the efficacy of this HRE-Egr-TK gene therapy in vivo, the A549 adenocarcinoma xenografts were planted in BALB/c nude mice. The tumor volumes and the suppression rates were assayed in nude mice bearing xenografts infected with plasmids and exposed to radiation.

RESULTS

HSV-TK gene expression in transfected cells was markedly increased in both radiation (227 U) and hypoxia (94 U) groups compared with control group (21 U). The HSV-TK expression (769 U) in transfected cells exposed to radiation under hypoxia is much more higher than the former groups. The survival rate of transfected cells exposed to radiation under hypoxia in the presence of GCV was obviously decreased with comparison of cells under normoxia (7.2%+/-1.8 % vs 32.7%+/-4.6 %). HRE-Egr promoter transfected tumors regressed significantly after a combination therapy of irradiation and GCV in all mice (n=10), the tumor suppression rates was 91.2%.

CONCLUSIONS

The hypoxia/radiation dual-sensitive promoter HRE-Egr can enhance the HSV-TK gene expression in solid tumors under hypoxia. Enhanced tumor suppression effect was observed in A549 xenografts infected with HRE-Egr promoter exposed to radiation.

摘要

背景与目的

放射基因治疗是一种新型癌症治疗策略；然而，由于实体瘤的独特特征——缺氧条件下肿瘤细胞对辐射的敏感性较低，该疗法的成效有限。为提高肺癌放射基因治疗的疗效，构建了一种缺氧/辐射双敏感启动子，以增强在缺氧条件下接受辐射的转染细胞中单纯疱疹病毒胸苷激酶（HSV-TK）的表达。

方法

通过在早期生长反应基因-1（Egr-1）启动子上游插入缺氧反应元件（HREs），构建嵌合启动子HRE-Egr。通过将HRE-Egr启动子克隆到HSV-TK基因上游构建HSV-TK表达载体，并通过脂质体将其转染至A549细胞。采用Northern印迹法分析在接受照射（6 Gy）和/或缺氧（1% O₂）处理的转染细胞中HSV-TK的表达，并使用MTT法检测在存在前体药物更昔洛韦（GCV）的情况下细胞的相对存活率。为检测这种HRE-Egr-TK基因疗法在体内的疗效，将A549腺癌异种移植瘤接种于BALB/c裸鼠。对接种了质粒并接受辐射的裸鼠体内的肿瘤体积和抑制率进行测定。

结果

与对照组（2•1 U）相比，辐射组（227 U）和缺氧组（94 U）中转染细胞中HSV-TK基因的表达均显著增加。在缺氧条件下接受辐射的转染细胞中HSV-TK的表达（769 U）远高于前两组。与常氧条件下的细胞相比，在存在GCV的情况下，缺氧条件下接受辐射的转染细胞的存活率明显降低（7.2%±1.8%对32.7%±4.6%）。在所有小鼠（n = 10）中，经照射和GCV联合治疗后，转染了HRE-Egr启动子的肿瘤显著消退,肿瘤抑制率为91.2%。