Departments of Molecular Biophysics and Biochemistry, Yale University School of Medicine, New Haven, Connecticut 06520, USA.
J Virol. 2010 Dec;84(23):12405-18. doi: 10.1128/JVI.01415-10. Epub 2010 Sep 22.
The Epstein-Barr virus (EBV) lytic activator genes bzlf1 and brlf1 are conventionally referred to as immediate-early (IE) genes. However, previous studies showed that the earliest expression of these genes was blocked by cycloheximide when the EBV lytic cycle was induced by histone deacetylase (HDAC) inhibitors and protein kinase C agonists. Anti-IgG activates a complex signal transduction pathway that leads to EBV lytic activation in the Akata cell line. Here we demonstrate that in Akata cells, where lytic cycle activation occurs very rapidly after anti-IgG treatment, de novo protein synthesis is also required for induction of bzlf1 and brlf1 expression. New protein synthesis is required up to 1.25 h after application of anti-IgG; bzlf1 and brlf1 mRNAs can be detected 1.5 h after anti-IgG. Five cellular IE genes were shown to be expressed by 1 h after addition of anti-IgG, and their expression preceded that of bzlf1 and brlf1. These include early growth response genes (egr1, egr2, and egr3) and nuclear orphan receptors (nr4a1 and nr4a3). These genes were activated by anti-IgG treatment of Akata cells with and without the EBV genome; therefore, their expression was not dependent on expression of any EBV gene product. EGR1, EGR2, and EGR3 proteins were kinetically upstream of ZEBRA and Rta proteins. Expression of EGR1, ZEBRA, and Rta proteins were inhibited by bisindolylmaleimide X, a selective inhibitor of PKC. The findings suggest a revised model in which the signal transduction cascade activated by cross-linking of the B cell receptor induces expression of cellular IE genes, such as early growth response and nuclear orphan receptor genes, whose products, in turn, regulate bzlf1 and brlf1 expression.
EBV 裂解激活基因 bzlf1 和 brlf1 通常被称为早期基因 (IE)。然而,之前的研究表明,当 EBV 裂解周期被组蛋白去乙酰化酶 (HDAC) 抑制剂和蛋白激酶 C 激动剂诱导时,这些基因的最早表达被环己酰亚胺阻断。抗 IgG 激活了一个复杂的信号转导途径,导致 Akata 细胞系中的 EBV 裂解激活。在这里,我们证明在 Akata 细胞中,抗 IgG 处理后裂解周期的激活非常迅速,bzlf1 和 brlf1 的表达也需要从头合成蛋白质。在应用抗 IgG 后 1.25 小时需要新的蛋白质合成;抗 IgG 后 1.5 小时可以检测到 bzlf1 和 brlf1 mRNA。加入抗 IgG 后 1 小时,显示出五个细胞 IE 基因的表达,其表达先于 bzlf1 和 brlf1。这些基因包括早期生长反应基因(egr1、egr2 和 egr3)和核孤儿受体(nr4a1 和 nr4a3)。这些基因通过抗 IgG 处理 Akata 细胞(有和没有 EBV 基因组)被激活;因此,它们的表达不依赖于任何 EBV 基因产物的表达。EGR1、EGR2 和 EGR3 蛋白在 ZEBRA 和 Rta 蛋白的动力学上游。PKC 的选择性抑制剂双吲哚马来酰亚胺 X 抑制 EGR1、ZEBRA 和 Rta 蛋白的表达。研究结果表明,一种经 B 细胞受体交联激活的信号转导级联反应诱导细胞 IE 基因(如早期生长反应和核孤儿受体基因)的表达,其产物反过来又调节 bzlf1 和 brlf1 的表达。