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.
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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。
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