Release of a virus coded glycoprotein from herpes simplex virus type 1 infected cells

HEp-2 cells, which were infected with HSV-1, excrete besides other proteins a soluble glycoprotein (Mr 125000–130000) related to the virus protein gC. The excretion of the glycoprotein and the production of extracellular virus particles is reduced to a similar extent when the cells were treated with monensin. Possible consequences of the excretion of soluble viral proteins to a modulation of the immune response are discussed.Abbreviations HSV-1 Herpes simplex virus type 1 - PAGE Polyacrylamide gel electrophoresis - SDS Sodium dodecylsulfate     

单纯疱疹病毒2型糖蛋白D成熟肽基因毕赤酵母表达载体的构建及序列分析

构建单纯疱疹病毒2型包膜糖蛋白D成熟肽基因毕赤酵母表达载体,并对序列进行分析,为进行高抗原性的真核表达重组gD蛋白奠定基础。采用PCR扩增HSV2-gD成熟肽基因,将该段基因克隆于pGEM-T克隆载体,转化鉴定后,与巴斯德毕赤酵母表达载体(pPIC9K)酶切连接,转化大肠杆菌DH5α,筛选测序确定构建了pPIC9K?gD的真核表达载体,对克隆的序列进行分析,预测表达产物的理化特性及抗原性。结果显示,获得的重组的酵母表达载体pPIC9K-gD,测序结果证实为HSV2-gD成熟肽基因,序列分析其高度保守,预测蛋白分子量40.63kD,等电点pI为7.15,包含完整成熟肽分值达1.7的多个抗原决定簇。成功构建了HSV2-gD成熟肽基因的毕赤酵母表达载体。     

Apolipoprotein E genotype influences vertical transmission of herpes simplex virus type 1 in a gender specific manner

There is growing evidence that herpes simplex virus type 1 (HSV-1), together with the apolipoprotein E 4 (APOE4) allele, contribute to the pathogenesis of Alzheimer's disease (AD), although the mechanism of their interaction remains uncertain. Here we show that the combination of inherited APOE genotype and vertical transmission of HSV-1 confers a differential risk of brain infection. These risk factors are known to be associated with AD.     

Evaluation of a recombinant excretory secretory Haemonchus contortus protein for use in a diagnostic enzyme-linked immunosorbent assay

The nematode Haemonchus contortus (H. contortus) is one of the most pathogenic and economically important parasites of sheep. A 24 kDa protein is one of the important components in H. contortus excretory/secretory (ES), which was shown to have important biological function. In our research, the cDNA of its open reading frame (ES24) was obtained and analyzed. Then the ES24 was sub-cloned into pET-30a expression vector. The recombinant vector that codes hexahistidyl peptide fusion protein (His-ES24) was transformed into Escherichia coli BL21 (DE3) strain. After induction, a high expression level of His-ES24 was found at 6h taking about 26% of the total bacterial protein analyzed by gel thin-layer scanning. The expressed His-ES24 was purified and then used in an enzyme-linked immunosorbent assay (ELISA) to detect specific antibodies in serum samples. The ELISA was able to differentiate between H. contortus-infected sheep serum and Fasciola hepatica-infected sheep serum or non-infected sheep serum. No cross-reaction was observed in sheep sera that have been experimentally infected with F. hepatica. A total of 153 field sheep serum samples conserved in our laboratory were examined using the His-ES24 ELISA, and 82 (53.6%) of them were found seropositive to H. contortus. Our results demonstrate that the prokaryotic-expressed His-ES24 might be a useful diagnostic reagent for epidemiological studies of H. contortus in sheep.     

Ribosome and protein synthesis modifications after infection of human epidermoid carcinoma cells with herpes simplex virus type 1

Summary Modifications of ribosomes have been investigated in human epidermoid carcinoma-2 cells at different stages of herpes simplex virus type 1 infection. Very early in infection, there is an increase in ribosomal protein S6 phosphorylation even in the absence of serum. The same result is obtained in the presence of actinomycin D. At early infection time, ribosomal proteins S2, S3a and Sa are newly phosphorylated. At early and early-late times, three phosphorylated non-ribosomal proteins (v1, v2 and v3) are differently associated temporally to ribosomes. Analyses of proteins extracted from 40S subunits, 80S ribosomes and polysomes show that v1 and v2 are distributed differently among the different ribosomal populations. S6 phosphopeptides were found to be identical after serum stimulation and after viral infection. In every case phosphoserine and phosphothreonine were identified in S6. Only phosphoserine was found in other phosphorylated proteins. Our results indicate that herpes simplex virus type 1 is able to modify pre-existing ribosomes: (i) by stimulating a pre-existing kinase for S6 phosphorylation even in the absence of serum and of viral genome expression; (ii) by inducing new specific kinase activity(ies); and (iii) by association of new, phosphorylated proteins to ribosomes. These ribosomal modifications are correlated with changes in protein synthesis, as shown by two-dimensional electrophoretic analyses of newly synthesized ³⁵S-labelled proteins.     

携带HSV-1TK基因的逆转录病毒载体构建及在HeLa细胞中的表达

目的:构建携带单纯疱疹病毒脱氧胸腺嘧啶激酶基因(herpes simplex virus thymidine kinase,HSV-TK)的逆转录病毒,用于宫颈癌的治疗研究。方法:用限制性内切酶从质粒pcDNA3.1/HA-myc-His(-)Z-TK切下HSV-1TK cDNA序列,亚克隆入逆转录病毒载体pLXSN得到重组质粒pLXSN-TK,鉴定正确的阳性重组质粒经PA317细胞包装,G418筛选,在NIH3T3细胞进行病毒滴度测定。然后用病毒感染人宫颈癌细胞HeLa。PCR、RT-PCR和Western blotting方法检测HSV-1TK基因在HeLa中的整合和表达情况。结果:重组质粒pLXSN-TK经PA317细胞包装后收获病毒上清,感染HeLa细胞,检测发现HSV-1TK基因整合到细胞基因组DNA中,并且能有效的转录和翻译。结论:成功构建了逆转录病毒pLXSN-TK,该病毒能有效感染HeLa细胞,并使携带的治疗基因HSV-1TK在细胞中表达,为今后HSV-1TK基因治疗宫颈癌的研究奠定基础。     

Toxoplasma gondii: enzyme-linked immunosorbent assay using different fragments of recombinant microneme protein 1 (MIC1) for detection of immunoglobulin G antibodies

Three different fragments of microneme 1 protein termed, r-MIC1ex2, r-MIC1ex34 and r-MIC1 of Toxoplasma gondii, were expressed in Escherichia coli as fusion proteins containing six histidyl residues at N- and C-terminal. After purification by metal affinity chromatography, these recombinant proteins were tested for their usefulness as antigens in an enzyme-linked immunosorbent assay for the detection of immunoglobulin G. Ninety-eight sera from patients with different stages of invasion and 24 sera from seronegative patients were examined. There was no significant difference observed in the antigenicity for human serum samples from patients with acute toxoplasmosis between three recombinant types of MIC1 antigen (96.1% for r-MIC1ex2 antigen and 100% for both r-MIC1ex34 and r-MIC1 proteins). Sera from chronic infections (with low titers of IgG antibody) showed significant lower sensitivity, especially for r-MIC1ex34 and r-MIC1 antigens (75%, 52.7% and 36.1% for r-MIC1ex2, r-MIC1ex34 and r-MIC1, respectively). These results indicate that the strongest antigenic region of the MIC1 is encoding by the second exon of mic1 gene. When r-MIC1ex2 (N-terminal fragment of protein) was combined with MAG1 (matrix antigen) and MIC3 (microneme 3 protein), the sensitivity increased to 88.9%. This result was comparable to an ELISA using a Toxoplasma lysate antigen (TLA) and two combinations of recombinant antigens: M1 (GRA1+GRA7+SAG1) and M2 (P35+SAG2+GRA6) with the sensitivity for serum samples tested 94.4%, 88.9% and 94.4%, respectively.     

In vitro nuclear egress of herpes simplex virus type 1 capsids

During their life cycles, viruses typically undergo many transport events throughout the cell. These events depend on a variety of both viral and host proteins and are often not fully understood. Such studies are often complicated by asynchronous infections and the concurrent presence of various viral intermediates in the cells, making it difficult to molecularly define each step. In the case of the herpes simplex virus type 1, the etiological agent of cold sores and many other illnesses, the viral particles undergo an intricate series of transport steps during its life cycle. Upon entry by fusion with a cellular membrane, they travel to the host cell nucleus where the virus replicates and assembles new viral particles. These particles then travel across the two nuclear envelopes and transit through the trans-Golgi network before finally being transported to and released at the cell surface. Though viral components and some host proteins modulating these numerous transport events have been identified, the details of these processes remain to be elucidated. To specifically address how the virus escapes the nucleus, we set up an in vitro model that reproduces the unconventional route used by herpes simplex type 1 virus to leave nuclei. This has not only allowed us to clarify the route of capsid egress of the virus but is now useful to define it at the molecular level.     

Herpes Simplex Virus Type 1 ICP27 Protein： Its Expression, Purification and Specific Antiserum Production

Herpes simplex virus type 1 (HSV-1) is the causative agent of cold sores and other more serious diseases. HSV-1 infected-cell protein 27 (ICP27) is an immediate-early regulatory phosphoprotein homologous to gene products identified in all classes of herpesviruses so far. To raise the antiserum to ICP27 for further characterization of its biological function, the ICP27 gene was cloned into the pET-28a (+) vector, then ICP27 protein was expressed in E. Coli and purified by nickel-nitrilotriacetic acid (Ni2+-NTA) affinity resin column,finally the purified protein was used to raise antiserum. Western blot analysis demonstrated that the antiserum recognized the recombinant protein, and the antiserum was able to probe the ICP27 in HSV-1 infected cells with high specificity by immunofluorescence assay (IFA). Therefore, the specific antiserum will provide a valuable tool for further studies investigating ICP27's biological function during HSV-1 infection.     

Expression and immunogenicity of recombinant glycoprotein D of herpes simplex virus 1 in Drosophila S2 cells

Herpes simplex virus type 1 (HSV-1) is responsible for cold sores in the general population, but also contributes to the development of other more serious diseases in some circumstances. The viral glycoprotein D (gD) is essential for virus entry into host cells. In the present study, the Drosophila melanogaster Schneider 2 (S2) expression system (DES) was evaluated for the expression of recombinant gD1. The DNA sequences encoding the full-length gD1 (369aa, FLgD1) and a truncated gD1 form corresponding to the ectodomain (314aa, EgD1) were cloned into S2 expression vector pMT/BiP/V5-HisA to generate pMT-EgD1 and pMT-FLgD1, respectively. Two forms of gD1 gene were fitted with a hexahistidine tag to facilitate their purification. Cell populations expressing the highest gD1 levels were selected by using a limiting dilution assay. Western blot, flow cytometry (FACS), and confocal immunofluoresence assay demonstrated that the full-length form is restrained in the lipid membranes of the cell and the ectodomain form is secreted into the medium. Recombinant ectodomain gD1 was scaled up and purified from the culture medium using nickel nitrilotriacetic acid affinity chromatography, and a maximum production level of 56.8 mg/L of recombinant gD1 was obtained in a shake-flask culture of S2 cells after induction with 5 µM CdCl2 for 4 days. Mice were then immunized with recombinant purified gD1 and produced high titers of antibody measured by enzyme-linked immunosorbent assay (ELISA; 1:5,120,000) as well as high plaque neutralization titer (1:320). Overall, the data indicated that stable expression in S2 cells is a practical way of synthesizing gD1 for use in structural and functional studies in the further study.     

Application of VP1 protein to develop monoclonal antibody against foot-and-mouth disease virus Asia1 type

In order to develop an anti-FMDV Asia1 type monoclonal antibody (mAb), BABL/c mice were immunized with recombinant FMDV VP1 protein. Three mAbs, 1B8, 5E1 and 5E2, were then further optimized. The result indicated that prepared anti-FMDV Asia1 mAbs had no cross-reactivity with Swine vesicular disease (SVD) and FMDV O, A and C type antigen. Their titers in abdomen liquor were 1:5×10⁶, 1:2×10⁶ and 1:5×10⁶, respectively. 1B8 was found to be of IgG₁ subtype, 5E1 and 5E2 belonged to IgG_2b subtype. In this study, the prepared mAbs are specific for detecting FMDV type Asia1, and is potentially useful for pen-side diagnosis. Foudation items: The National high Technology Research and Development Program of China (No.2006AA10A204); The National science & Technology Pillar Program (No. 2006BAD06A17)     

Formation of aggresome-like structures in herpes simplex virus type 2-infected cells and a potential role in virus assembly

Herpes simplex virus (HSV) is a large, enveloped DNA virus that replicates in the nucleus and is assembled in the cytoplasm to the mature infectious virion. In this study, we present evidence that, in HSV-2-infected cells, some tegument proteins (UL46 and VP16) and newly synthesized nucleocapsids accumulate in a juxtanuclear domain sharing characteristics with aggresomes, cellular structures formed in response to misfolded proteins [J. Cell Biol. 146 (1999) 1239, J. Cell Biol. 143 (1998) 2010]. The juxtanuclear domains (aggresome-like structures) induced by HSV-2 infection localize to the microtubule organizing center (MTOC) where the clustering mitochondria, Golgi-derived vesicles, and cellular chaperones including heat shock protein (Hsp)40 and Hsp70 were recruited. Formation of aggresome-like structures was blocked by the presence of microtubule-disassembling drug nocodazole, indicating that microtubule-dependent transport may be involved in the accumulation of viral and cellular proteins at these sites in HSV-2-infected cells. These features are similar to those governing the formation of aggresomes. In contrast to aggresomes, however, the vimentin cage surrounding the MTOC was not observed with the aggresome-like structures in HSV-2-infected cells, and the maintenance of these structures required an intact microtubular network. Disruption of the aggresome-like structures by nocodazole treatment led to a low but consistent effect (10-fold decrease) on the production of intracellular infectious particles. These results suggest that aggresome-like structures do not play a critical but augmentary role in HSV-2 replication.     

Babesia gibsoni: Serodiagnosis of infection in dogs by an enzyme-linked immunosorbent assay with recombinant BgTRAP

The thrombospondin-related adhesive protein of Babesia gibsoni (BgTRAP) is known as an immunodominant antigen and is, therefore, considered as a candidate for the development of a diagnostic reagent for canine babesiosis. The recombinant BgTRAP (rBgTRAP) expressed in Escherichia coli was tested in an enzyme-linked immunosorbent assay (ELISA) for detecting antibodies to B. gibsoni in dogs. The ELISA with rBgTRAP clearly differentiated between B. gibsoni-infected dog sera and specific pathogen-free (SPF) dog sera. The sera collected from dogs experimentally infected with closely related parasites, B. canis canis, B. canis vogeli, B. canis rossi, and Neospora caninum, showed no cross-reactivity by the ELISA with rBgTRAP. A total of 107 blood samples collected from dogs that had been diagnosed as having babesiosis at veterinary hospitals in Japan were examined for the diagnosis of B. gibsoni infection by the ELISA and PCR. Ninety-six (89.7%) and 89 (83.2%) of the tested samples were positive by the ELISA and PCR, respectively, while 11 (10.3%) and 4 (3.7%) were ELISA+/PCR- and ELISA-/PCR+, respectively. In addition, the sensitivity of the ELISA with rBgTRAP was much higher than that of previously established ELISAs with rBgP50, rBgSA1, and rBgP32. These results indicate that the rBgTRAP is the most promising diagnostic antigen for the detection of an antibody to B. gibsoni in dogs and that the combined ELISA/PCR approach could provide the most reliable diagnosis for clinical sites.     

Virucidal effect of peppermint oil on the enveloped viruses herpes simplex virus type 1 and type 2 in vitro

The virucidal effect of peppermint oil, the essential oil of Mentha piperita, against herpes simplex virus was examined. The inhibitory activity against herpes simplex virus type 1 (HSV-1) and herpes simplex virus type 2 (HSV-2) was tested in vitro on RC-37 cells using a plaque reduction assay. The 50% inhibitory concentration (IC50) of peppermint oil for herpes simplex virus plaque formation was determined at 0.002% and 0.0008% for HSV-1 and HSV-2, respectively. Peppermint oil exhibited high levels of virucidal activity against HSV-1 and HSV-2 in viral suspension tests. At noncytotoxic concentrations of the oil, plaque formation was significantly reduced by 82% and 92% for HSV-1 and HSV-2, respectively. Higher concentrations of peppermint oil reduced viral titers of both herpesviruses by more than 90%. A clearly time-dependent activity could be demonstrated, after 3 h of incubation of herpes simplex virus with peppermint oil an antiviral activity of about 99% could be demonstrated. In order to determine the mode of antiviral action of the essential oil, peppermint oil was added at different times to the cells or viruses during infection. Both herpesviruses were significantly inhibited when herpes simplex virus was pretreated with the essential oil prior to adsorption. These results indicate that peppermint oil affected the virus before adsorption, but not after penetration into the host cell. Thus this essential oil is capable to exert a direct virucidal effect on HSV. Peppermint oil is also active against an acyclovir resistant strain of HSV-1 (HSV-1-ACV(res)), plaque formation was significantly reduced by 99%. Considering the lipophilic nature of the oil which enables it to penetrate the skin, peppermint oil might be suitable for topical therapeutic use as virucidal agent in recurrent herpes infection.     

A new N-methyl thymine derivative comprising a dihydroxyisobutenyl unit as ligand for thymidine kinase of herpes simplex virus type 1 (HSV-1 TK)

Molecular modeling and phosphorylation assay in vitro were employed to select a novel unsaturated 1,3-dihydroxyisobutenyl thymine derivative 6 as ligand for HSV-1 TK which may be of interest as lead for the development of an positron emission tomography (PET) imaging agent. Compound 6 was successfully prepared using modified approaches. A significant improvement over the syntheses involving pathways A and B (1% and 3% overall yield, respectively), was observed using synthetic route C (14% overall yield).     

High GC content of simple sequence repeats in Herpes simplex virus type 1 genome

The presence, locations and composition of simple sequence repeats (SSRs) in Herpes simplex virus type 1 (HSV-1) genome were extracted and analyzed by using the software Imperfect Microsatellite Extractor (IMEx). There were 663 mon-, 502 di-, 184 tri-, 20 tetra-, 4 penta- and 4 hexanucleotide SSRs that were observed in different distribution between coding and noncoding regions in the HSV-1 genome. G/C, GC/CG, and (GGC)(n) were predominant in mononucleotide, dinucletide, trinucleotide repeats respectively. Indeed, the results showed that GC content in simple sequence repeats was notably higher than that in entire HSV-1 genome. Our data might be helpful for studying the pathogenesis, genome structure and evolution of HSV-1.     

Characterization of oligosaccharides of highly purified glycoprotein gC of herpes simplex virus type 1 (HSV-1)

The envelope membrane glycoprotein gC of HSV-1 was purified from Triton X-100 extracts of virus-infected BHK-21 or HEp-2 cells by a single step immuno-affinity column using monoclonal anti-gC antibody. The analysis of the purified [³H]G1cN labeled glycoprotein gC (by gel filtration on Bio-Gel P4) before and after digestion with endo-β-N-acetylglucosaminidase (endo D) indicated that gC contains Asn-linked “complex type” oligosaccharides. No “high mannose” type oligosaccharides were detected. Fractionation of radio-labeled glycopeptides of gC on a column of concanavalin A-sepharose suggested that glycopeptides have “diantennary” and “triantennary” and/or “tetra antennary” structures. Tunicamycin inhibited the incorporation of [¹⁴C]GalN or [³H]GlcN into gC in HSV-1 infected BHK-21 or HEp-2 cells. Gel filtration analysis of [³H]GlcN labeled gC following β-elimination reaction failed to indicate O-glycosidically linked oligosaccharides.