清脆的
生物
Cas9
转染
体内
病毒载体
分子生物学
遗传增强
赫拉
癌症研究
体外
基因
癌症
遗传学
重组DNA
作者
Kaijian Ling,Leiyan Yang,Neng Yang,Mengyue Chen,Yanzhou Wang,Liang Shi,Yudi Li,Lupin Jiang,Ping Yan,Zhiqing Liang
出处
期刊:Human Gene Therapy
[Mary Ann Liebert, Inc.]
日期:2020-01-28
卷期号:31 (5-6): 297-308
被引量:33
摘要
High-risk human papillomavirus (HPV) E6 and E7 genes display vital oncogenic properties in cervical cancer. Eliminating HPV driver gene or loss of function by the clustered regularly interspaced short palindromic repeat (CRISPR)/Cas9 system is a promising treatment for the HPV-associated cancer. Thus, this study designed a CRISPR/Cas9 system to target the E6 and E7 genes at once, to detect whether it have efficacy in vitro and in vivo . Meanwhile, CRISPR/Cas9 system was measured after transfection with liposomes but virus. Cervical cancer lines (HeLa and SiHa) were used in this study. Sanger sequencing confirmed that the single CRISPR/Cas9 vector [termed E6E7-knockout (KO)] containing guide RNAs could targeting both HPV18 E6 and E7 genes in vitro . In addition, double-targeting E6 and E7 increased p53 protein expression significantly while compared with E6 or E7 targeting, respectively. Mice with xenografts were divided into four groups: three doses of experimental groups (20, 40, and 60 μg) and one control group. The E6E7-KO through liposome delivery was injected into tumors. Tumor growth was measured and protein expression was observed through immunohistochemistry. The toxic side effects in vivo were also evaluated. E6E7-KO induced cell apoptosis and inhibited cell proliferation markedly in vitro . E6E7-KO downregulated the messenger RNA and protein expression of E6 and E7, whereas p53 and p21 protein levels were upregulated accordingly. Notably, E6E7-KO delivery by liposome exhibited an effect in vivo . Tumor growth was inhibited in the E6E7-KO groups, which was accompanied by decreased E6/E7 protein expression and increased p53/p21 protein expression, especially the level of p53 protein expression. Therefore, E6E7-KO could have synergy efficient by p53 pathway. Furthermore, local injection with CRISPR/Cas9 by nonviral delivery may be regarded as a potential therapy for cervical cancer in the future.
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