Liu Guangqing, Ni Zheng, Yun Tao, Yu Bin, Chen Liu, Zhao Wei, Hua Jionggang, Chen Jianping
Institute of Virology and Biotechnology, Zhejiang Academy of Agricultural Sciences, Hangzhou 310021, PR China.
J Gen Virol. 2008 Dec;89(Pt 12):3080-3085. doi: 10.1099/vir.0.2008/003525-0.
Rabbit hemorrhagic disease virus (RHDV), a member of the family Caliciviridae comprising positive-stranded RNA viruses, is a highly virulent pathogen of rabbits. Until recently, studies into the molecular mechanisms of RHDV replication and pathogenesis have been hindered by the lack of an in vitro culture system and reverse genetics. This study describes the generation of a DNA-based reverse genetics system for RHDV and the subsequent investigation of the biological role of the RHDV VP2 protein. The full-length RHDV genome was assembled as a single cDNA clone and placed under the control of the eukaryotic human cytomegalovirus promoter. Transfection of cells with the DNA clone resulted in a clear cytopathic effect and the generation of infectious progeny virions. The reconstituted virus was stable and grew to titres similar to that of the parental virus. Although previous reports have suggested that the minor structural protein (VP2) of other caliciviruses is essential for the production of infectious virions, using the DNA-launch-based RHDV reverse genetics system described here it was demonstrated that VP2 is not essential for RHDV infectivity. Transfection of cells with a cDNA clone of RHDV lacking VP2 resulted in the generation of infectious virions. These studies indicate that the presence of VP2 could reduce the replication of RHDV, suggesting that it may play a regulatory role in the life cycle of RHDV.
兔出血症病毒(RHDV)是杯状病毒科的成员之一,属于正链RNA病毒,是家兔的一种高致病性病原体。直到最近,由于缺乏体外培养系统和反向遗传学技术,对RHDV复制和发病机制的分子机制研究一直受到阻碍。本研究描述了一种基于DNA的RHDV反向遗传学系统的构建,以及随后对RHDV VP2蛋白生物学作用的研究。将全长RHDV基因组组装成一个单一的cDNA克隆,并置于真核人类巨细胞病毒启动子的控制之下。用该DNA克隆转染细胞导致明显的细胞病变效应,并产生感染性子代病毒粒子。重组病毒稳定,其生长滴度与亲本病毒相似。尽管先前的报道表明,其他杯状病毒的次要结构蛋白(VP2)对于感染性病毒粒子的产生至关重要,但利用本文所述的基于DNA启动的RHDV反向遗传学系统证明,VP2对于RHDV的感染性并非必不可少。用缺乏VP2的RHDV cDNA克隆转染细胞导致产生感染性病毒粒子。这些研究表明,VP2的存在可能会降低RHDV的复制,这表明它可能在RHDV的生命周期中发挥调节作用。
