Division of Virology, Department of Infection and Immunity, Jichi Medical University School of Medicine, Tochigi-Ken 329-0498, Japan.
Department of Emerging Infectious Diseases, Institute of Tropical Medicine, Nagasaki University, Nagasaki-Ken 852-8523, Japan.
J Gen Virol. 2011 Dec;92(Pt 12):2838-2848. doi: 10.1099/vir.0.035378-0. Epub 2011 Aug 31.
We have previously demonstrated that an intact PSAP motif in the ORF3 protein is required for the formation and release of membrane-associated hepatitis E virus (HEV) particles with ORF3 proteins on their surface. In this study, we investigated the direct interaction between the ORF3 protein and tumour susceptibility gene 101 (Tsg101), a cellular factor involved in the budding of viruses containing the P(T/S)AP late-domain, in PLC/PRF/5 cells expressing the wild-type or PSAP-mutated ORF3 protein and Tsg101 by co-immunoprecipitation. Tsg101 bound to wild-type ORF3 protein, but not to the PSAP-inactive ORF3 protein. To examine whether HEV utilizes the multivesicular body (MVB) pathway to release the virus particles, we analysed the efficiency of virion release from cells upon introduction of small interfering RNA (siRNA) against Tsg101 or dominant-negative (DN) mutants of Vps4 (Vps4A and Vps4B). The relative levels of virus particles released from cells depleted of Tsg101 decreased to 6.4 % of those transfected with negative control siRNA. Similarly, virion egress was significantly reduced by the overexpression of DN forms (Vps4AEQ or Vps4BEQ). The relative levels of virus particles released from cells expressing Vps4AEQ and Vps4BEQ were 19.2 and 15.6 %, respectively, while the overexpression of wild-type Vps4A and Vps4B did not alter the levels of virus release. These results indicate that the ORF3 protein interacts with Tsg101 through the PSAP motifs in infected cells, and that Tsg101 and the enzymic activities of Vps4A and Vps4B are involved in HEV release, thus suggesting that HEV requires the MVB pathway for egress of virus particles.
我们之前已经证明,ORF3 蛋白中的完整 PSAP 基序是形成和释放表面带有 ORF3 蛋白的膜相关戊型肝炎病毒 (HEV) 颗粒所必需的。在这项研究中,我们通过共免疫沉淀,在表达野生型或 PSAP 突变型 ORF3 蛋白和 Tsg101 的 PLC/PRF/5 细胞中,研究了 ORF3 蛋白与肿瘤易感性基因 101(Tsg101)之间的直接相互作用,Tsg101 是一种参与含有 P(T/S)AP 晚期结构域的病毒出芽的细胞因子。Tsg101 与野生型 ORF3 蛋白结合,但与 PSAP 失活的 ORF3 蛋白不结合。为了研究 HEV 是否利用多泡体 (MVB) 途径释放病毒颗粒,我们分析了在引入针对 Tsg101 的小干扰 RNA (siRNA) 或 Vps4 (Vps4A 和 Vps4B) 的显性负突变体 (DN) 后,病毒颗粒从细胞中释放的效率。与用阴性对照 siRNA 转染的细胞相比,耗尽 Tsg101 的细胞中释放的病毒颗粒的相对水平降低到 6.4%。同样,DN 形式 (Vps4AEQ 或 Vps4BEQ) 的过表达显著降低了病毒出芽。表达 Vps4AEQ 和 Vps4BEQ 的细胞中释放的病毒颗粒的相对水平分别为 19.2%和 15.6%,而野生型 Vps4A 和 Vps4B 的过表达并未改变病毒释放水平。这些结果表明,ORF3 蛋白在感染细胞中通过 PSAP 基序与 Tsg101 相互作用,并且 Tsg101 和 Vps4A 和 Vps4B 的酶活性参与 HEV 释放,因此表明 HEV 需要 MVB 途径来释放病毒颗粒。
