KSHV ORF20 Promotes Coordinated Lytic Reactivation for Increased Infectious Particle Production

Viruses Pub Date : 2024-09-05 DOI:10.3390/v16091418
Odelia Orbaum-Harel, Anna Sloutskin, Inna Kalt, Ronit Sarid
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Abstract

Kaposi’s sarcoma-associated herpesvirus (KSHV) is a cancer-causing virus that establishes life-long infection. KSHV is implicated in the etiology of Kaposi’s sarcoma, and a number of rare hematopoietic malignancies. The present study focuses on the KSHV open reading frame 20 (ORF20), a member of the conserved herpesvirus UL24 protein family containing five conserved homology domains and a conserved PD-(D/E)XK putative endonuclease motif, whose nuclease function has not been established to date. ORF20 encodes three co-linear protein isoforms, full length, intermediate, and short, though their differential functions are unknown. In an effort to determine the role of ORF20 during KSHV infection, we generated a recombinant ORF20-Null KSHV genome, which fails to express all three ORF20 isoforms. This genome was reconstituted in iSLK cells to establish a latent infection, which resulted in an accelerated transcription of viral mRNAs, an earlier accumulation of viral lytic proteins, an increase in the quantity of viral DNA copies, and a significant decrease in viral yield upon lytic reactivation. This was accompanied by early cell death of cells infected with the ORF20-Null virus. Functional complementation of the ORF20-Null mutant with the short ORF20 isoform rescued KSHV production, whereas its endonuclease mutant form failed to enhance lytic reactivation. Complementation with the short isoform further revealed a decrease in cell death as compared with ORF20-Null virus. Finally, expression of IL6 and CXCL8, previously shown to be affected by the hCMV UL24 homolog, was relatively low upon reactivation of cells infected with the ORF20-Null virus. These findings suggest that ORF20 protein, with its putative endonuclease motif, promotes coordinated lytic reactivation for increased infectious particle production.
KSHV ORF20 促进协调的裂解再活化以增加传染性粒子的产生
卡波西肉瘤相关疱疹病毒(KSHV)是一种可终身感染的致癌病毒。KSHV 与卡波西肉瘤和一些罕见的造血恶性肿瘤的病因有关。本研究的重点是 KSHV 开放阅读框 20(ORF20),它是保守的疱疹病毒 UL24 蛋白家族的成员,包含五个保守的同源结构域和一个保守的 PD-(D/E)XK 假定内切酶基序,其核酸酶功能至今尚未确定。ORF20 编码三种同线性蛋白异构体:全长、中间和短,但它们的不同功能尚不清楚。为了确定 ORF20 在 KSHV 感染过程中的作用,我们生成了一个重组 ORF20 缺失 KSHV 基因组,它不能表达所有三种 ORF20 异构体。在 iSLK 细胞中重组该基因组以建立潜伏感染,结果导致病毒 mRNA 转录加速、病毒溶解蛋白提前积累、病毒 DNA 拷贝数量增加,以及溶解后重新激活时病毒产量显著下降。与此同时,感染 ORF20-Null 病毒的细胞也会提早死亡。用短 ORF20 异构体对 ORF20-Null 突变体进行功能互补可挽救 KSHV 的产生,而其内切酶突变体形式则不能增强溶解性再活化。与 ORF20-Null 病毒相比,短异构体的互补进一步显示细胞死亡减少。最后,IL6和CXCL8的表达量在ORF20-Null病毒感染细胞的再活化过程中相对较低,而这两种物质以前曾被证明受到hCMV UL24同源物的影响。这些发现表明,ORF20 蛋白及其推测的内切酶基团可促进协调的溶解性再活化,从而增加感染性颗粒的产生。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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