An Enhanced Packaging System for Helper-Dependent Herpes Simplex Virus Vectors

Helper-dependent herpes simplex virus (HSV) vectors (amplicons) show considerable promise to provide for long-term transduced-gene expression in most cell types. The current packaging system of choice for these vectors involves cotransfection with a set of five overlapping cosmids that encode the full HSV type 1 (HSV-1) helper virus genome from which the packaging (pac) elements have been deleted. Although both the helper virus and the HSV amplicon can replicate, only the latter is packaged into infectious viral particles. Since the titers obtained are too low for practical application, an enhanced second-generation packaging system was developed by modifying both the helper virus and the HSV amplicon vector. The helper virus was reverse engineered by using the original five cosmids to generate a single HSV-bacterial artificial chromosome (BAC) clone in Escherichia coli from which the pac elements were deleted to generate a replication-proficient but packaging-defective HSV-1 genome. The HSV amplicon was modified to contain the simian virus 40 origin of replication, which acts as an HSV-independent replicon to provide for the replicative expansion of the vector. The HSV amplicon is packaged into infectious particles by cotransfection with the HSV-BAC helper virus into the 293T cell line, and the resulting cell lysate is free of detectable helper virus contamination. The combination of both modifications to the original packaging system affords an eightfold increase in the packaged-vector yield.     

单纯疱疹病毒Ⅰ型糖蛋白D在酵母中的表达

从提取的HSV-1基因组中扩增得到编码gD蛋白胞外区1～314aa的基因gDt,将其插入毕赤酵母表达质粒pPIC9K的醇氧化酶(AOX1)启动子下游,构建携带gDt的重组载体,经电转化GS115菌株和G418筛选,得到了高效分泌表达gD蛋白的毕赤酵母菌株,表达量达到250mg/L,该目的蛋白可被gD单抗(1-I-9)特异性识别。表达产物经离子交换、金属螯合、分子筛柱层析纯化后得到纯度较高的重组蛋白。重组gD蛋白免疫BALB/c小鼠可诱生一定水平的特异性抗体,表明该蛋白具有较好的免疫原性,能够诱导小鼠产生体液免疫应答。     

单纯疱疹病毒Ⅰ型糖蛋白D在酵母中的表达

从提取的HSV-1基因组中扩增得到编码gD蛋白胞外区1～314aa的基因gDt,将其插入毕赤酵母表达质粒pPIC9K的醇氧化酶(AOX1)启动子下游,构建携带gDt的重组载体,经电转化GS115菌株和G418筛选,得到了高效分泌表达gD蛋白的毕赤酵母菌株,表达量达到250mg/L,该目的蛋白可被gD单抗(1-I-9)特异性识别.表达产物经离子交换、金属螯合、分子筛柱层析纯化后得到纯度较高的重组蛋白.重组gD蛋白免疫BALB/c小鼠可诱生一定水平的特异性抗体,表明该蛋白具有较好的免疫原性,能够诱导小鼠产生体液免疫应答.     

宫颈疾患中人乳头瘤病毒和疱疹病毒Ⅱ型DNA的检测

本文应用HPV11,16,18型和HSV-2N/BglⅡ、HSV-2L/HindⅢDNA片段等五个分子探针,通过斑点杂交技术对79例宫颈疾患(包括50例宫颈癌和29例宫颈糜烂)组织DNA进行了检测,结果发现宫颈癌组织HPV16,18和11的阳性率分别为44％,12％和4％,而宫颈糜烂组织中HPV16,18和11的阳性率分别为14％,7％和14％;且3例标本HPV16和HPV18均呈弱杂交反应;在被检的所有宫颈癌组织中各有2例分别与HSV-2N/BglⅡHSV-2L/HindⅢ弱杂交,宫颈糜烂组织无一例阳性。结果提示,HPV在宫颈癌的发生过程中可能起主要作用,HSV-2的作用尚不确定,可能与HPV起协同作用。     

PKR-Dependent Xenophagic Degradation of Herpes Simplex Virus Type 1

The lysosomal pathway of autophagy is the major catabolic mechanism for degrading long-lived cellular proteins and cytoplasmic organelles. Recent studies have also shown that autophagy (xenophagy) may be used to degrade bacterial pathogens that invade intracellularly. However, it is not yet known whether xenophagy is a mechanism for degrading viruses. Previously, we showed that autophagy induction requires the antiviral eIF2alpha kinase signaling pathway (including PKR and eIF2alpha) and that this function ofeIF2alpha kinase signaling is antagonized by the herpes simplex virus (HSV-1) neurovirulence gene product, ICP34.5. Here, we show quantitative morphologic evidence of PKR-dependent xenophagic degradation of herpes simplex virions and biochemical evidence of PKR and eIF2alpha-dependent degradation of HSV-1 proteins, both of which are blocked by ICP34.5. Together, these findings indicate that xenophagy degrades HSV-1 and that this cellular function is antagonized by the HSV-1 neurovirulence gene product, ICP34.5. Thus, autophagy-related pathways are involved in degrading not only cellular constituents and intracellular bacteria, but also viruses.     

Genome Sequence of Herpes Simplex Virus 1 Strain McKrae

The herpes simplex virus 1 (HSV-1) strain McKrae is highly virulent compared to other wild-type strains of HSV-1. To help us better understand the genetic determinants that lead to differences in the pathogenicity of McKrae and other HSV-1 strains, we sequenced its genome. Comparing the sequence of McKrae's genome to that of strain 17 revealed that the genomes differ by at least 752 single nucleotide polymorphisms (SNPs) and 86 insertion/deletion events (indels). Although the majority of these polymorphisms reside in noncoding regions, 241 SNPs and 10 indels alter the protein-coding sequences of 58 open reading frames. Some of these variations are expected to contribute to the pathogenic phenotype of McKrae.     

Silencing Herpes Simplex Virus Type 1 Capsid Protein Encoding Genes by siRNA: A Promising Antiviral Therapeutic Approach

Herpes simplex virus type 1 (HSV-1), a member of the herpesviridae, causes a variety of human viral diseases globally. Although a series of antiviral drugs are available for the treatment of infection and suppression of dissemination, HSV-1 remains highly prevalent worldwide. Therefore, the development of novel antiviral agents with different mechanisms of action is a matter of extreme urgency. During the proliferation of HSV-1, capsid assembly is essential for viral growth, and it is highly conserved in all HSV-1 strains. In this study, small interfering RNAs (siRNAs) against the HSV-1 capsid protein were screened to explore the influence of silencing capsid expression on the replication of HSV-1. We designed and chemically synthesized siRNAs for the capsid gene and assessed their inhibitory effects on the expression of target mRNA and the total intracellular viral genome loads by quantitative real-time PCR, as well as on the replication of HSV-1 via plaque reduction assays and electron microscopy. Our results showed that siRNA was an effective approach to inhibit the expression of capsid protein encoding genes including UL18, UL19, UL26, UL26.5, UL35 and UL38 in vitro. Interference of capsid proteins VP23 (UL18) and VP5 (UL19) individually or jointly greatly affected the replication of clinically isolated acyclovir-resistant HSV-1 as well as HSV-1/F and HSV-2/333. Plaque numbers and intracellular virions were significantly reduced by simultaneous knockdown of UL18 and UL19. The total intracellular viral genome loads were also significantly decreased in the UL18 and UL19 knockdown groups compared with the viral control. In conclusion, interfering with UL18 and UL19 gene expression could inhibit HSV-1 replication efficiently in vitro. Our research offers new targets for an RNA interference-based therapeutic strategy against HSV-1.     

Herpes Simplex Virus Types 1 and 2 Completely Help Adenovirus-Associated Virus Replication

In addition to adenoviruses, which are capable of completely helping adenovirus-associated virus (AAV) multiplication, only herpesviruses are known to provide any AAV helper activity, but this activity has been thought to be partial (i.e., AAV DNA, RNA, and protein syntheses are induced, but infectious particles are not assembled). In this study, however, we show that herpes simplex virus type 1 (HSV-1) and type 2 (HSV-2) are in fact complete AAV helpers and that AAV type 2 (AAV2) infectivity yields can approach those obtained when coinfections are carried out with a helper adenovirus. AAV helper activity was demonstrated in KB cells with two HSV-1 strains (11124 and 17MP) and an HSV-2 strain (HG52). Each herpesvirus supported AAV2 multiplication with comparable efficiency. AAV2 multiplication was similarly efficient in HSV-1 coinfections of HeLa cells, whereas lower yields were obtained in HEp-2 and primary human embryonic kidney cells. HSV-1 also supported AAV1 multiplication in HeLa cells but, at corresponding multiplicities of infection, AAV1 grew less efficiently than AAV2. Comparisons of the time courses of AAV2 DNA, RNA, and protein syntheses after coinfection with either adenovirus type 5 or HSV-1 revealed that, in each case, the onset of synthesis and attainment of maximal synthesis rate occurred earlier in coinfections with HSV-1. These findings demonstrate the linkage of AAV macromolecular synthesis to an event(s) in the helper virus cycle. Aside from this temporal association, helper-related differences in AAV macromolecular synthesis were not apparent.