Dominance of virus over host factors in cross-species activation of human cytomegalovirus early gene expression

Human cytomegalovirus (HCMV) exhibits a highly restricted host range. In this study, we sought to examine the relative significance of host and viral factors in activating early gene expression of the HCMV UL54 (DNA polymerase) promoter in murine cells. Appropriate activation of the UL54 promoter at early times is essential for viral DNA replication. To study how the HCMV UL54 promoter is activated in murine cells, a transgenesis system based on yeast artificial chromosomes (YACs) was established for HCMV. A 178-kb YAC, containing a subgenomic fragment of HCMV encompassing the majority of the unique long (UL) region, was constructed by homologous recombination in yeast. This HCMV YAC backbone is defective for viral growth and lacks the major immediate-early (IE) gene region, thus permitting the analysis of essential cis-acting sequences when complemented in trans. To quantitatively measure the level of gene expression, we generated HCMV YACs containing a luciferase reporter gene inserted downstream of either the UL54 promoter or, as a control for late gene expression, the UL86 promoter, which directs expression of the major capsid protein. To determine the early gene activation pathway, point mutations were introduced into the inverted repeat 1 (IR1) element of the UL54 promoter of the HCMV YAC. In the transgenesis experiments, HCMV YACs and derivatives generated in yeast were introduced into NIH 3T3 murine cells by polyethylene glycol-mediated fusion. We found that infection of YAC, but not plasmid, transgenic lines with HCMV was sufficient to fully recapitulate the UL54 expression program at early times of infection, indicating the importance of remote regulatory elements in influencing regulation of the UL54 promoter. Moreover, YACs containing a mutant IR1 in the UL54 promoter led to reduced ( approximately 30-fold) reporter gene expression levels, indicating that HCMV major IE gene activation of the UL54 promoter is fully permissive in murine cells. In comparison with HCMV, infection of YAC transgenic NIH 3T3 lines with murine cytomegalovirus (MCMV) resulted in lower (more than one order of magnitude) efficiency in activating UL54 early gene expression. MCMV is therefore not able to fully activate HCMV early gene expression, indicating the significance of virus over host determinants in the cross-species activation of key early gene promoters. Finally, these studies show that YAC transgenesis can be a useful tool in functional analysis of viral proteins and control of gene expression for large viral genomes.     

敲减单纯疱疹病毒Ⅱ型（HSV-2）UL30蛋白表达可抑制HSV-2复制

按照shRNA（small hairpin RNA）设计要求,选择编码单纯疱疹病毒Ⅱ型DNA多聚酶催化亚单位的U_L30（unique long 30,U_L30）基因序列保守区域,设计、合成并构建表达U_L30序列特异性siRNA（short interfering RNA）的质粒载体pUL30．通过磷酸钙转染法将其转染入HEK（human embryonic kidney）293细胞中,用蛋白印迹法检测对HSV-2 UL30蛋白表达的影响,观察受染细胞病变效应（cytopathic effect,CPE）,终点滴定法测定细胞上清液中病毒感染滴度（50% tissue culture infective dose,TCID₅₀）．结果表明,针对U_L30基因的siRNA能有效抑制UL30蛋白表达,同时显著抑制受染细胞的CPE,降低上清液中病毒感染滴度．提示本研究建立的针对U_L30基因特异性siRNA能有效阻断HSV-2在HEK293细胞内的复制,U_L30基因是一个潜在的抗HSV-2复制的药物靶标．     

靶向UL27shRNA抑制Ⅱ型单纯疱疹病毒在HEK293细胞中的复制

按照shRNA(small hairpin RNA)设计原则,针对Ⅱ型单纯疱疹病毒(herpes simplex virus type 2, HSV-2)的UL27基因序列保守区域筛选设计、合成4条干扰靶序列并构建表达UL27序列特异性siRNA(short interfering RNA)的质粒载体pGPU6/GFP/Neo．通过脂质体介导重组表达载体转染HEK293细胞 (human embryonic kidney 293 cell)再接种HSV-2．采用实时荧光定量PCR(real-time fluorescent quantitative PCR)技术检测UL27各组的mRNA转录水平,终点滴定法检测细胞上清液中的病毒滴度,四甲基偶氮唑盐(four methyl thiazolyl tetrazolium, MTT)法测定细胞存活率,Western印迹法检测蛋白表达效果．结果显示,UL27shRNA75组对UL27基因mRNA表达抑制效果最佳,同时能显著抑制感染细胞的CPE(cytopathic effect, CPE),降低上清液中的病毒感染滴度,提高细胞的生存率,抑制UL27基因的蛋白表达．提示本研究构建的pGPU6/GFP/Neo-UL27表达载体能在细胞水平上不同程度地干扰HSV-2 UL27基因表达,抑制HSV-2在HEK293细胞中复制．     

Multiple regulatory events influence human cytomegalovirus DNA polymerase (UL54) expression during viral infection.

The human cytomegalovirus (HCMV) DNA polymerase gene (UL54; also called pol) is a prototypical early gene in that expression is mandatory for viral DNA replication. Recently, we have identified the major regulatory element in the UL54 promoter responsive to the major immediate early (MIE) proteins (UL122 and UL123) (J.A. Kerry, M.A. Priddy, and R. M. Stenberg, J. Virol. 68:4167-4176, 1994). Mutation of this element, inverted repeat sequence 1 (IR1), abrogates binding of cellular proteins to the UL54 promoter and reduces promoter activity in response to viral proteins in transient-transfection assays. To extend our studies on the UL54 promoter, we aimed to examine the role of IR1 in UL54 regulation throughout the course of infection. These studies show that viral proteins in addition to the MIE proteins can activate the UL54 promoter. Proteins from UL112-113 and IRS1/TRS1, recently identified as essential loci for transient complementation of HCMV oriLyt-dependent DNA replication, were found to function as transactivators of the UL54 promoter in association with MIE proteins. UL112-113 enhanced UL54 promoter activation by MIE proteins three- to fourfold. Constitutive expression of UL112-113 demonstrated that the MIE protein dependence of UL112-113 transactivational activity was not related to activation of cognate promoter sequences, suggesting that UL112-113 proteins function in cooperation with the MIE proteins. Mutation of IR1 was found to abrogate stimulation of the UL54 promoter by UL112-113, suggesting that this element is also involved in UL112-113 stimulatory activity. These results demonstrate that additional viral proteins influence UL54 promoter expression in transient-transfection assays via the IR1 element. To confirm the biological relevance of IR1 in regulating UL54 promoter activity during viral infection, a recombinant virus construct containing the UL54 promoter with a mutated IR1 element regulating expression of the chloramphenicol acetyltransferase (CAT) reporter gene (RVIRmCAT) was generated. Analysis of RVIRmCAT revealed that mutation of IR1 dramatically reduces UL54 promoter activity at early times after infection. However, at late times after infection CAT expression by RVIRmCAT, as assessed by RNA and protein levels, was approximately equivalent to expression by wild-type RVpolCAT. These data demonstrate IR1-independent regulation of the UL54 promoter at late times after infection. Together these results show that multiple regulatory events affect UL54 promoter expression during the course of infection.     

对HCMV UL54 mRNA 片段特异性切割的M1GS构建

人巨细胞病毒是一种DNA病毒,在人群中一般呈亚临床感染和潜伏感染。为研究病毒基因沉默工具和抗病毒制剂,以人巨细胞病毒UL54基因mRNA序列设计互补的外部引导序列,共价结合到大肠杆菌来源RNaseP催化核心M1RNA上,从而构建成M1GS-T6核酶。通过对DNA聚合酶UL54基因亚克隆片段转录产物体外切割研究,证实该核酶具备对UL54mRNA片段的特异切割能力。     

Schistosoma mansoni U6 gene promoter-driven short hairpin RNA induces RNA interference in human fibrosarcoma cells and schistosomules

RNA interference (RNAi) mediated by short hairpin-RNA (shRNA) expressing plasmids can induce specific and long-term knockdown of specific mRNAs in eukaryotic cells. To develop a vector-based RNAi model for Schistosoma mansoni, the schistosome U6 gene promoter was employed to drive expression of shRNA targeting reporter firefly luciferase. An upstream region of a U6 gene predicted to contain the promoter was amplified from genomic DNA of S. mansoni. A shRNA construct driven by the predicted U6 promoter targeting luciferase was assembled and cloned into plasmid pXL-Bac II, the construct termed pXL-BacII_SmU6-shLuc. Luciferase expression in transgenic fibrosarcoma HT-1080 cells was significantly reduced 96 h following transduction with plasmid pXL-BacII_SmU6-shLuc, which encodes luciferase mRNA-specific shRNA. In a similar fashion, schistosomules of S. mansoni were transformed with the SmU6-shLuc or control constructs. Firefly luciferase mRNA was introduced into transformed schistosomules after which luciferase activity was analyzed. Significantly less activity was present in schistosomules transfected with pXL-BacII_SmU6-shLuc compared with controls. The findings revealed that the putative S. mansoni U6 gene promoter of 270 bp in length was active in human cells and schistosomes. Given that the U6 gene promoter drove expression of shRNA from an episome, the findings also indicate the potential of this putative RNA polymerase III dependent promoter as a component regulatory element in vector-based RNAi for functional genomics of schistosomes.     

HCMV基因在人和小鼠胚胎成纤维细胞中表达的差异性研究

人巨细胞病毒（human cytomegalovirus, HCMV）种属特异性机制尚不清楚。研究通过检测HCMVADl69体外感染人胚胎成纤维细胞（Human embryo fibroblast, HEF）和小鼠胚胎成纤维细胞（mouse embryo fibroblast, MEF）后病毒基因的表达情况,探讨HCMV种属特异性的可能分子机制。首先用HCMV AD169（MOI=5）分别感染HEF和MEF,相差显微镜逐日观察细胞的形态学变化;RT—PCR检测HCMV即刻早期（IE1、IE2）、早期（uL84）和晚期基因（UL83）的表达情况;Western—blot和免疫荧光检测病毒基因编码蛋白表达的情况。形态学观察发现HEF感染HCMV后逐渐变大变圆并相互融合,第4天可见典型的HCMV特征性病变效应,而MEF则未出现上述的变化;RT-PCR和Western—blot表明HEF组表达即刻早期基因IE1和IE2、早期基因uL84和晚期基因UL83 mRNA以及各基因所编码的蛋白,且相对表达量显著高于模拟感染组（P〈0．01）;而MEF组仅IEl和IE2mRNA和蛋白相对表达量显著低于HEF组（P〈0．05）,而高于模拟感染组（P〈0．01）。免疫荧光检测发现HEF感染72h表达IE和UL83蛋白,而MEF则无明显表达。以上结果表明,HC—MV不能在MEF中复制并产生完整子代病毒颗粒,且病毒基因表达阻止在IE2基因表达之后和UL84基因表达之前,其种属特异性可能与即刻早期蛋白低水平的表达量有关。     

Bcl-2/C-Raf双基因“敲低”抑制人结肠癌细胞增殖

 RNA干扰是一种具有序列特异性的基因沉默,能够触发具有相应序列的mRNA的降解.构建具有双靶点的RNAi质粒表达载体,与单靶点表达载体比较,探讨其对结肠癌细胞增殖的抑 制作用.本研究分别构建了针对Bcl-2、C-Raf 和Bcl-2/C-Raf靶基因的质粒表达载体,通过Lipofectamine TM2000介导转染人结肠癌细胞系HCT-8后,检测相应转染组靶基因的mRNA和蛋白质表达量,测定各组细胞活性,研究RNAi对各组癌细胞增殖的抑制率.结果表明,分别转染3种质粒表达载体后,3组结肠癌细胞中相应靶基因的mRNA和蛋白质表达量均降低;转染双靶点干扰质粒的试验组;其细胞活性低于单靶点组;对于针对Bcl-2, C-Raf和Bcl-2/C-Raf基因的3组干扰实验,RNAi对结肠癌细胞增殖的抑制率分别为43.87%,40.64% 和63.85%.RNAi是结肠癌细胞中的一种功能途径,以质粒作为表达载体,同时具备Bcl-2/C-Raf双靶点的表达载体,对结肠癌细胞增殖的抑制作用要明显优于单靶点表达载体,双靶点质粒表达载体在结肠癌的基因治疗中是有潜力的.     

In vitro construction of effective M1GS ribozymes targeting HCMV UL54 RNA segments

Seven sequence-specific ribozymes (M1GS RNAs) derived in vitro from the catalytic RNA subunit of Escherichia coli RNase P and targeting the mRNAs transcribed by the UL54 gene encoding the DNA polymerase of human cytomegalovirus were screened from 11 ribozymes that were designed based on four rules: (1) the NCCA-3′ terminal must be unpaired with the substrate; (2) the guide sequence (GS) must be at least 12 nt in length; (3) the eighth nucleotide must be U, counting from the site-1; and (4) around the cleavage site, the sites -1/ 1/ 2 must be U/G/C or C/G/C. Further investigation of the factors affecting the cleavage effect and the optimal ratio for M1GS/substrate was carried out. It was determined that the optimal ratio for M1GS/substrate was 2:1 and too much M1GS led to substrate degrading. As indicated above, several M1GS that cleaved HCMV UL54 RNA segments in vitro were successfully designed and constructed.Our studies support the use of ribozyme M1GS as antisense molecules to silence HCMV mRNA in vitro, and using the selection procedure as a general approach for the engineering of RNase P ribozymes.     

The Human Cytomegalovirus UL76 Gene Regulates the Level of Expression of the UL77 Gene

Background

Human cytomegalovirus (HCMV) can be reactivated under immunosuppressive conditions causing several fatal pneumonitis, hepatitis, retinitis, and gastrointestinal diseases. HCMV also causes deafness and mental retardation in neonates when primary infection has occurred during pregnancy. In the genome of HCMV at least 194 known open reading frames (ORFs) have been predicted, and approximately one-quarter, or 41 ORFs, are required for viral replication in cell culture. In contrast, the majority of the predicted ORFs are nonessential for viral replication in cell culture. However, it is also possible that these ORFs are required for the efficient viral replication in the host. The UL77 gene of HCMV is essential for viral replication and has a role in viral DNA packaging. The function of the upstream UL76 gene in the HCMV-infected cells is not understood. UL76 and UL77 are cistons on the same viral mRNA and a conventional 5′ mRNA for UL77 has not been detected. The vast majority of eukaryotic mRNAs are monocistronic, i.e., they encode only a single protein.

Methodology/Principal Findings

To determine whether the UL76 ORF affects UL77 gene expression, we mutated UL76 by ORF frame-shifts, stop codons or deletion of the viral gene. The effect on UL77 protein expression was determined by either transfection of expression plasmids or infection with recombinant viruses. Mutation of UL76 ORF significantly increased the level of UL77 protein expression. However, deletion of UL76 upstream of the UL77 ORF had only marginal effects on viral growth.

Conclusions/Significance

While UL76 is not essential for viral replication, the UL76 ORF is involved in regulation of the level of UL77 protein expression in a manner dependent on the translation re-initiation. UL76 may fine-tune the UL77 expression for the efficient viral replication in the HCMV- infected cells.     

Comparison of bovine RNA polymerase III promoters for short hairpin RNA expression

RNA interference (RNAi) mediated by DNA-based expression of short hairpin RNA (shRNA) is a powerful method of sequence-specific gene knockdown. A number of vectors for expression of shRNA have been developed that feature promoters from RNA polymerase III (pol III)-transcribed genes of mouse or human origin. To advance the use of RNAi as a tool for functional genomic research and for future development of specific therapeutics in the bovine species, we have developed shRNA expression vectors that feature novel bovine RNA pol III promoters. We characterized two bovine U6 small nuclear RNA (snRNA) promoters (bU6-2 and bU6-3) and a bovine 7SK snRNA promoter (b7SK). We compared the efficiency of each of these promoters to express shRNA molecules. Promoter activity was measured in the context of RNAi by targeting and suppressing the reporter gene encoding enhanced green fluorescent protein. Results show that the b7SK promoter induced the greatest level of suppression in a range of cell lines. The comparison of these bovine promoters in shRNA expression is an important component for the future development of bovine-specific RNAi-based research.     

Effective inhibition of mRNA accumulation and protein expression of H5N1 avian influenza virus NS1 gene in vitro by small interfering RNAs

Avian influenza has emerged as a devastating disease and may cross species barrier and adapt to a new host, causing enormous economic loss and great public health threats, and non-structural protein 1 (NS1) is a multifunctional non-structural protein of avian influenza virus (AIV) that counters cellular antiviral activities and is a virulence factor. RNA interference (RNAi) provides a powerful promising approach to inhibit viral infection specifically. To explore the possibility of using RNAi as a strategy against AIV infection, after the fusion protein expression plasmids pNS1-enhanced green fluorescent protein (EGFP), which contain the EGFP reporter gene and AIV NS1 as silencing target, were constructed and NS1-EGFP fusion protein expressing HEK293 cell lines were established, four small interfering RNAs (siRNAs) targeting NS1 gene were designed, synthesized, and used to transfect the stable cell lines. Flow cytometry, real-time quantitative polymerase chain reaction, and Western blot were performed to assess the expression level of NS1. The results suggested that sequence-dependent specific siRNAs effectively inhibited mRNA accumulation and protein expression of AIV NS1 in vitro. These findings provide useful information for the development of RNAi-based prophylaxis and therapy for AIV infection.     

DLC-1基因表达对结肠癌细胞侵袭转移能力的影响

目的:研究DLC-1基因对结肠癌细胞侵袭迁移能力的影响.方法:将DLC-1 shRNA(短发夹状RNA,short hairpin RNA)序列克隆到质粒pGCsi-U6/Neo载体,采用脂质体介导的转染方法将构建的DLC-1 shRNA表达质粒转入结肠癌细胞系LoVo细胞.采用RT-PCR技术和Western Blot技术分别检测LoVo细胞中DLC-1mRNA和蛋白表达水平的变化.Transwell小室人工重组基底膜侵袭转移实验观察LoVo细胞侵袭迁移能力的改变.结果:结肠癌细胞系LoVo细胞表达DLC-1分子.所构建质粒表达载体能有效地干扰LoVo细胞DLC-1 mRNA和蛋白质表达水平;Transwell小室人工重组基底膜侵袭转移实验结果显示,转染后LoVo细胞侵袭转移能力明显增强(p＜0.05).结论:结肠癌细胞系LoVo细胞表达DLC-1基因,应用RNAi技术可特异性降低其表达.DLC-1的表达水平与结肠癌细胞侵袭转移相关.     

非完全互补shRNA对RNA聚合酶II启动子调控的RNAi的影响

RNA干扰（RNAi）是一种转录后基因沉默技术,可有效诱导序列特异性基因沉默．由RNA聚合酶Ⅱ启动子调控表达的小发卡RNA可有效介导RNAi效应,为组织特异性基因沉默提供了一条新的途径．但是,由RNA聚合酶Ⅱ启动子调控表达的小发卡RNA（shRNA）在序列上与靶基因非完全互补对RNAi效应的影响鲜有报道．本文初步探索RNA聚合酶Ⅱ启动子调控表达的shRNA碱基发生突变或缺失对RNAi效应的影响．研究表明,靶向hTERT mRNA的碱基突变shRNA显著降低RNAi效应,而靶向GFP mRNA的碱基缺失shRNA对RNAi效应没有显著影响．本研究为非完全互补shRNA对RNAi效应的进一步深入研究提供了理论与实验依据．     

A Novel DDB2-ATM Feedback Loop Regulates Human Cytomegalovirus Replication

Human cytomegalovirus (HCMV) genome replication requires host DNA damage responses (DDRs) and raises the possibility that DNA repair pathways may influence viral replication. We report here that a nucleotide excision repair (NER)-associated-factor is required for efficient HCMV DNA replication. Mutations in genes encoding NER factors are associated with xeroderma pigmentosum (XP). One of the XP complementation groups, XPE, involves mutation in ddb2, which encodes DNA damage binding protein 2 (DDB2). Infectious progeny virus production was reduced by >2 logs in XPE fibroblasts compared to levels in normal fibroblasts. The levels of immediate early (IE) (IE2), early (E) (pp65), and early/late (E/L) (gB55) proteins were decreased in XPE cells. These replication defects were rescued by infection with a retrovirus expressing DDB2 cDNA. Similar patterns of reduced viral gene expression and progeny virus production were also observed in normal fibroblasts that were depleted for DDB2 by RNA interference (RNAi). Mature replication compartments (RCs) were nearly absent in XPE cells, and there were 1.5- to 2.0-log reductions in viral DNA loads in infected XPE cells relative to those in normal fibroblasts. The expression of viral genes (UL122, UL44, UL54, UL55, and UL84) affected by DDB2 status was also sensitive to a viral DNA replication inhibitor, phosphonoacetic acid (PAA), suggesting that DDB2 affects gene expression upstream of or events associated with the initiation of DNA replication. Finally, a novel, infection-associated feedback loop between DDB2 and ataxia telangiectasia mutated (ATM) was observed in infected cells. Together, these results demonstrate that DDB2 and a DDB2-ATM feedback loop influence HCMV replication.     

Characterisation and comparison of the chicken H1 RNA polymerase III promoter for short hairpin RNA expression

The U6 and 7SK RNA polymerase III promoters are widely used in RNAi research for the expression of shRNAs. However, with their increasing use in vitro and in vivo, issues associated with cytotoxicity have become apparent with their use. Therefore, alternative promoters such as the weaker H1 promoter are becoming a popular choice. With interest in the chicken as a model organism, we aimed to identify and characterise the chicken H1 promoter for the expression of shRNAs for the purpose of RNAi. The chicken H1 promoter was isolated and sequence analysis identified conserved RNA polymerase III promoter elements. A shRNA expression cassette containing the chicken H1 promoter and shRNA targeting enhanced green fluorescent protein (EGFP) was developed. An RNAse protection assay confirmed activity of the promoter determined by the detection of expressed shRNAs. Comparison of the H1 promoter to the chicken RNA polymerase III 7SK and U6 promoters demonstrated that expressed shRNAs from the H1 promoter induced gene specific silencing, albeit to lower levels in comparison to both 7SK and U6 promoters. Here we have identified a new tool for RNAi research with specific applications to the chicken. The availability of a RNA polymerase III promoter that drives shRNA expression to reduced levels will greatly benefit in ovo/in vivo applications where there are concerns of cytotoxicity resulting from overexpression of an shRNA.