基础医学与临床 ›› 2013, Vol. 33 ›› Issue (8): 986-991.

• 研究论文 • 上一篇    下一篇

HCV 5'UTR靶向性人工M1GS核酶的胞内抗病毒活性

张文军1,黄志文1,李喜芳1,张成成1,刘映乐2   

  1. 1. 广东药学院
    2. 武汉大学
  • 收稿日期:2013-04-01 修回日期:2013-06-15 出版日期:2013-08-05 发布日期:2013-07-18
  • 通讯作者: 刘映乐 E-mail:mvlwu@whu.edu.cn
  • 基金资助:
    广东省自然科学基金面上项目;病毒学国家重点实验室开放基金项目

The intracellular antiviral activities of a novel engineered M1GS ribozyme that targets to 5' untranslated region of hepatitis C virus genome

  • Received:2013-04-01 Revised:2013-06-15 Online:2013-08-05 Published:2013-07-18

摘要: 目的 基于大肠埃希菌核糖核酸酶P的催化性RNA亚基(M1 RNA),人工构建一种抗丙肝病毒(HCV)的新型靶向性核酶,并进一步鉴定其胞外靶向切割活性及胞内抗病毒作用。方法 首先采用计算机软件对HCV基因组保守区——5'非翻译区(5' UTR)的序列与结构进行分析,以确定候选靶位。针对靶位的侧翼序列,设计与之互补的引导序列(GS),然后通过PCR将其共价连接至M1 RNA的3'末端,从而构建靶向性的M1GS核酶。结果 针对HCV 5' UTR第67位的胞嘧啶成功构建了一种M1GS核酶——M1GS-HCV/C67。该人工核酶不仅在体外可对靶RNA片段产生特异性切割,在HCV感染的宿主细胞内也能够显著抑制HCV核心蛋白的表达(p<0.05),并使上清液HCV RNA的拷贝数减少约800倍(p<0.01)。结论 M1GS-HCV/C67这种新型靶向性核酶具有良好的体外抗HCV活性,其成功构建为HCV感染的治疗研究提供了另一种潜在途径。

关键词: M1GS核酶, 丙型肝炎病毒, 5'非翻译区, 抗病毒

Abstract: Objective Hepatitis C virus (HCV) is one of the major pathogens that lead to viral hepatitis. At present, Interferon treatment in combination with ribavirin is the first line clinical therapeutic approach. However, the responses are usually poor and the viral infection reoccurs. Therefore, exploring new antiviral agents and therapies is under urgent needs. Methods The sequence and structure of the 5' untranslated region of HCV genome were analyzed through the two computer software, DNAMAN and RNA Structure. The cytosine 67 nt downstream of the first base of HCV genome RNA was identified as the optimal target cleavage site. Based on the flanking sequence of this assumed cleavage site, a guide sequence (GS) was designed and covalently linked to the 3 prime terminus of the M1 RNA, which is catalytic subunit of the RNase P derived from Escherichia coli using PCR. We named this new targeting ribozyme M1GS-HCV/C67 and it antiviral activities were analyzed in cultured cells. Results In the in vitro cleavage assay, The M1GS-HCV/C67 ribozyme could effectively cleave the HCV target RNA into two fragments at the specific cleavage site. Moreover, comparing to the blank control, this engineered M1GS ribozyme could reduce the core protein expression of more than 75% in the HCV-infected host cell and lead to a 800-fold reduction of HCV RNA copies in the culture supernatant. An another M1GS ribozyme, M1GS-HCV/C67*, which has the same guide sequence but does not contain the bridge sequence, did not exhibit apparent inhibition for the expression of HCV core gene and viral proliferation in our paralleled assay . Conclusion We successfully constructed an M1GS ribozyme showing affective and specific cleavage of target viral RNA. Further results showed that the engineered ribozyme had notably antiviral activity in cultured cells, thus provided a new promising approach for clinical anti-HCV therapeutic strategy.

Key words: M1GS Ribozyme, HCV, 5' UTR, Antiviral