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Epstein-Barr 病毒 DNA 聚合酶的核转运依赖于 BMRF1 聚合酶的持续因子和分子伴侣 Hsp90。

Nuclear transport of Epstein-Barr virus DNA polymerase is dependent on the BMRF1 polymerase processivity factor and molecular chaperone Hsp90.

机构信息

Division of Virology, Aichi Cancer Center Research Institute, Chikusa-ku, Nagoya, Japan.

出版信息

J Virol. 2013 Jun;87(11):6482-91. doi: 10.1128/JVI.03428-12. Epub 2013 Apr 3.

DOI:10.1128/JVI.03428-12
PMID:23552409
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3648106/
Abstract

Epstein-Barr virus (EBV) replication proteins are transported into the nucleus to synthesize viral genomes. We here report molecular mechanisms for nuclear transport of EBV DNA polymerase. The EBV DNA polymerase catalytic subunit BALF5 was found to accumulate in the cytoplasm when expressed alone, while the EBV DNA polymerase processivity factor BMRF1 moved into the nucleus by itself. Coexpression of both proteins, however, resulted in efficient nuclear transport of BALF5. Deletion of the nuclear localization signal of BMRF1 diminished the proteins' nuclear transport, although both proteins can still interact. These results suggest that BALF5 interacts with BMRF1 to effect transport into the nucleus. Interestingly, we found that Hsp90 inhibitors or knockdown of Hsp90β with short hairpin RNA prevented the BALF5 nuclear transport, even in the presence of BMRF1, both in transfection assays and in the context of lytic replication. Immunoprecipitation analyses suggested that the molecular chaperone Hsp90 interacts with BALF5. Treatment with Hsp90 inhibitors blocked viral DNA replication almost completely during lytic infection, and knockdown of Hsp90β reduced viral genome synthesis. Collectively, we speculate that Hsp90 interacts with BALF5 in the cytoplasm to assist complex formation with BMRF1, leading to nuclear transport. Hsp90 inhibitors may be useful for therapy for EBV-associated diseases in the future.

摘要

EBV 复制蛋白被转运到细胞核中以合成病毒基因组。我们在此报告 EBV DNA 聚合酶核转运的分子机制。单独表达 EBV DNA 聚合酶催化亚基 BALF5 时,该蛋白会在细胞质中积累,而 EBV DNA 聚合酶持续因子 BMRF1 则自行进入细胞核。然而,两种蛋白共表达会导致 BALF5 有效转运到细胞核中。BMRF1 的核定位信号缺失会减少蛋白的核转运,尽管两种蛋白仍可相互作用。这些结果表明,BALF5 与 BMRF1 相互作用以实现向核内转运。有趣的是,我们发现 Hsp90 抑制剂或短发夹 RNA 敲低 Hsp90β 会阻止 BALF5 的核转运,即使存在 BMRF1 也是如此,无论是在转染实验中还是在裂解复制的背景下都是如此。免疫沉淀分析表明,分子伴侣 Hsp90 与 BALF5 相互作用。在裂解感染期间,Hsp90 抑制剂处理几乎完全阻断了病毒 DNA 复制,并且 Hsp90β 的敲低减少了病毒基因组的合成。总的来说,我们推测 Hsp90 在细胞质中与 BALF5 相互作用,以协助与 BMRF1 形成复合物,从而导致核转运。Hsp90 抑制剂将来可能对 EBV 相关疾病的治疗有用。

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