The Wistar Institute, Philadelphia, Pennsylvania 19104, USA.
J Virol. 2010 Mar;84(6):2697-706. doi: 10.1128/JVI.01997-09. Epub 2010 Jan 13.
Kaposi's sarcoma-associated herpesvirus (KSHV) encodes a cluster of 12 microRNAs (miRNAs) that are processed from a transcript that is embedded within the major latency control region. We have generated a deletion mutation that eliminates 10 of the 12 viral miRNAs from the KSHV bacmid by using recombineering methods. The KSHV miRNA deletion mutant (BAC36 DeltamiR) behaved similarly to wild-type (wt) BAC36 in viral production, latency gene transcription, and viral DNA copy number in 293 and dermal microvascular endothelial cells (DMVECs). However, BAC36 DeltamiR consistently expressed elevated levels of viral lytic genes, including the immediate-early transcriptional activator Rta (ORF50). At least one KSHV microRNA (miRK12-5) was capable of suppressing ORF50 mRNA, but poor seed sequence alignments suggest that these targets may be indirect. Comparison of epigenetic marks in DeltamiR KSHV genomes revealed decreases in histone H3 K9 methylation, increases in histone H3 acetylation, and a striking loss of DNA methylation throughout the viral and cellular genome. One viral miRNA, K12-4-5p, was found to have a sequence targeting retinoblastoma (Rb)-like protein 2 (Rbl2), which is a known repressor of DNA methyl transferase 3a and 3b mRNA transcription. We show that ectopic expression of miR-K12-4-5p reduces Rbl2 protein expression and increases DNMT1, -3a, and -3b mRNA levels relative to the levels for control cells. We conclude that KSHV miRNA targets multiple pathways to maintain the latent state of the KSHV genome, including repression of the viral immediate-early protein Rta and a cellular factor, Rbl2, that regulates global epigenetic reprogramming.
卡波氏肉瘤相关疱疹病毒 (KSHV) 编码了一组 12 个 microRNAs (miRNAs),这些 miRNAs 由嵌入主要潜伏期控制区域的转录本加工而来。我们使用重组方法生成了一个缺失突变,从 KSHV bacmid 中消除了 12 个病毒 miRNA 中的 10 个。KSHV miRNA 缺失突变体 (BAC36 DeltamiR) 在病毒产量、潜伏期基因转录和 293 和真皮微血管内皮细胞 (DMVEC) 中的病毒 DNA 拷贝数方面与野生型 (wt) BAC36 表现相似。然而,BAC36 DeltamiR consistently expressed elevated levels of viral lytic genes, including the immediate-early transcriptional activator Rta (ORF50). At least one KSHV microRNA (miRK12-5) was capable of suppressing ORF50 mRNA, but poor seed sequence alignments suggest that these targets may be indirect. 相比之下,KSHV miRNA 缺失突变体 consistently expressed elevated levels of viral lytic genes, including the immediate-early transcriptional activator Rta (ORF50). At least one KSHV microRNA (miRK12-5) was capable of suppressing ORF50 mRNA, but poor seed sequence alignments suggest that these targets may be indirect. 表达的病毒裂解基因水平升高,包括早期转录激活因子 Rta (ORF50)。至少一种 KSHV microRNA (miRK12-5) 能够抑制 ORF50 mRNA,但较差的种子序列比对表明这些靶标可能是间接的。Comparison of epigenetic marks in DeltamiR KSHV genomes revealed decreases in histone H3 K9 methylation, increases in histone H3 acetylation, and a striking loss of DNA methylation throughout the viral and cellular genome. One viral miRNA, K12-4-5p, was found to have a sequence targeting retinoblastoma (Rb)-like protein 2 (Rbl2), which is a known repressor of DNA methyl transferase 3a and 3b mRNA transcription. We show that ectopic expression of miR-K12-4-5p reduces Rbl2 protein expression and increases DNMT1, -3a, and -3b mRNA levels relative to the levels for control cells. We conclude that KSHV miRNA targets multiple pathways to maintain the latent state of the KSHV genome, including repression of the viral immediate-early protein Rta and a cellular factor, Rbl2, that regulates global epigenetic reprogramming. 与对照组相比,miR-K12-4-5p 的异位表达降低了 Rbl2 蛋白的表达,并增加了 DNMT1、-3a 和 -3b 的 mRNA 水平。我们得出结论,KSHV miRNA 靶向多个途径来维持 KSHV 基因组的潜伏状态,包括抑制病毒早期蛋白 Rta 和调节全局表观遗传重编程的细胞因子 Rbl2。
