Expression and intercellular trafficking of the VP22 protein of CVI988/Rispens vaccine strain of Marek’s disease virus

The viral protein 22 (VP22) in the tegument of Marek’s disease virus serotype 1 (MDV-1) plays an im-portant role in cell-to-cell spread and viral propagation. Antiserum against the carboxyl terminus of VP22 was prepared by immunizing mice with recombinant VP22 expressed in E. coli, and used to in-vestigate its expression in chicken embryo fibroblast (CEF) cells infected with different MDV-1 strains. At an infection dose of PFU=50, intercellular trafficking of the VP22 into the nuclei of the surrounding receipt cells was detected as early as 3 hours post infection. By 6 hours after infection (before viral plague formation), the protein was detected in the whole nuclei of the recipient cells with no difference among MDV-1 strains CVI988/Rispens, GA and RB1B. Intra-nuclear accumulation of the VP22 protein was further increased when the viral plagues started to form. These results indicate that, albeit the ex-istence of the 201TKSERT206 deletion, the VP22 of the CVI988/Rispens vaccine strain has also intercel-lular-trafficking function, which might serve as a potential alternative delivering protein instead of virulent strains VP22.     

MDV-1 VP22 conjugated VP2 enhancing immune response against infectious bursal disease virus by DNA vaccination in mice

VP22 of Marek’s disease virus serotype 1 (MDV-1) could function in protein transduction. In this study, an infectious bursal disease virus VP2 gene was fused to the carboxyl termini of VP22. It showed that the fusion protein did not spread into the bystander cells from the cells transfected with pVP22-VP2, as the VP22 alone could. The VP22 proteins were found to be translocated into all the nuclei in the neighboring COS-1 cells, as analyzed by a fluorescence assay. Although mice were immunized with the recombinant DNAs mixed with polyethylenimine (PEI) at a dose of 1:2, it failed to enhance the antibody response against IBDV VP2, as measured by the indirect ELISA assay, yet the cell mediated immune response was significantly increased. The ratio of CD8 /CD4 T cells was significantly increased in the immunized group with the fusion genes, compared with the group immunized with VP2 (P<0.05). Our results demonstrated that VP22 indeed enhances the cell-mediated response in the fused VP2 in a mice model system, possibly due to the fact that the IBDV VP2 could be carried into the surrounding cells at a limited level under pressure from MDV VP22.     

MDV-1 CVI988/Rispens疫苗毒体外感染期间VP22的表达及细胞间转导作用

利用CVI988 VP22蛋白C端94~243 aa片段作为抗原制备特异性抗体, 并用于检测MDV-1不同毒株感染鸡胚成纤维细胞(CEF)时, 在不同感染时间内的表达情况. 结果发现, 当感染量PFU=50时, MDV各不同致病力的毒株(GA, RB1B和CVI988株)VP22最早在3 h时开始向病毒感染细胞的邻近细胞核内扩散; 8 h时, VP22几乎扩散到所有细胞的核内. 这说明VP22在感染细胞形成空斑之前就已经开始表达, 并高效转导入其他正常的细胞核内. 实验中发现血清I型马立克氏病病毒(MDV-1)弱毒株CVI988/Rispens的VP22蛋白缺失²⁰¹TKSERT²⁰⁶. 结果证实这一缺失对VP22蛋白转导功能并没有明显影响, 即CVI988 VP22仍具有高效的细胞内转导作用. 这为深入研究和开发MDV CVI988株的VP22蛋白转导功能奠定了基础.     

Identification and characterization of two cleavage fragments from the Aquareovirus nonstructural protein NS80

Aquareovirus species vary with respect to pathogenicity,and the nonstructural protein NS80 of aquareoviruses has been implicated in the regulation of viral replication and assembly,which can form viral inclusion bodies(VIBs) and recruit viral proteins to its VIBs in infected cells.NS80 consists of 742 amino acids with a molecular weight of approximately 80 kDa.Interestingly,a short specific fragment of NS80 has also been detected in infected cells.In this study,an approximately58-kDa product of NS80 was confirmed in various infected and transfected cells by immunoblotting analyses using α-NS80 C.Mutational analysis and time course expression assays indicated that the accumulation of the 58-kDa fragment was related to time and infection dose,suggesting that the fragment is not a transient intermediate of protein degradation.Moreover,another smaller fragment with a molecular mass of approximately 22 kDa was observed in transfected and infected cells by immunoblotting with a specific anti-FLAG monoclonal antibody or α-NS80 N,indicating that the 58-kDa polypeptide is derived from a specific cleavage site near the amino terminus of NS80.Additionally,different subcellular localization patterns were observed for the 22-kDa and 58-kDa fragments in an immunofluorescence analysis,implying that the two cleavage fragments of NS80 function differently in the viral life cycle.These results provide a basis for additional studies of the role of NS80 played in replication and particle assembly of the Aquareovirus.     

Expression of Outer Capsid Protein VP5 of Grass Carp Reovirus in E.coli and Analysis of its Immunogenicity

Grass carp reovirus （GCRV） is a tentative member of the Aquareovirus genus in the family Reoviridae. The mature virion comprises 11 dsRNA genomes enclosed by two concentric icosahedral proteins shells that is comprised of five core proteins and two outer capsid proteins. The genome sequence and 3D structure demonstrate there is a higher level of sequence homology in structural proteins between GCRV and mammalian orthoreoviruses （MRV） compared to other members of the family. To understand the pathogenesis of GCRV infection, the outer capsid protein VP5, a homology of the μ1 protein of MRV, was expressed in E.coli. It was found that the recombinant VP5 was highly expressed, and the expressed His-tag fusion protein was involved in the formation of the inclusion body. Additionally, specific anti-VP5 serum was prepared from purified protein and western blot demonstrated that the expressed protein was able to bind immunologically to rabbit anti GCRV particle serum and the immunogenicity was determined by ELISA assay. Additional experiments in investigating the functional properties of VP5 will further elucidate the role of the GCRV outer capsid protein VP5 during entry into host cells, and its interaction among viral proteins and host cells during the infection process.     

Nuclear localization of Sindbis virus nonstructural protein nsP2

In early infection, approximately 10% of nonstructural protein nsP2 of Sindbis virus was transported into the nuclei of virus-infected BHK-21 cells. Nuclear asP2 was dominantly associated with nuclear matrix. During the course of infection, increasing amounts of nsP2 accumulated in the nuclear fraction. A prominent accumulation of nuclear nsP2 occurred early in infection, from 1 h to 3 h postinfection. Meanwhile. a weak NTPase activity was found to be associated with the immunocomplexed nsP2. Nuclear localization of nsP2 and its possible role were diseussed in relation to the inhibition of host macromolecular synthesis.     

Inhibition of porcine reproductive and respiratory syndrome virus replication in porcine alveolar macrophages with the 3′UTR-targeted amiRNA北大核心CSCD

［Objective］ To study the inhibitory effect of 3′ untranslated region （UTR）-targeted artificial microRNA （amiRNA） against porcine reproductive and respiratory syndrome virus （PRRSV） replication in porcine alveolar macrophages （PAM）. ［Methods］ Recombinant adenovirus （rAd） expressing the 3′ UTR-targeted or control amiRNA and green fluorescent protein （GFP） reporter gene were generated by transfecting AAV-293 cells with the transfer vector. The expression of sequence-specific amiRNA was detected by quantitative RT-PCR. The anti-PRRSV effect of amiRNA was detected by quantitative RT-PCR， Western blotting and viral titration assay. ［Results］ Two rAds，namely rAd-amiR3UTR-GFP and rAd-amiRcon-GFP， were generated. Both primary PAM and 3D4/163 cells could be transduced by rAd with different transduction efficiencies. The amiR3UTR was expressed in dose-and timedependent manners in rAd-transduced PAM cells. The amiR3UTR， but not amiRcon， had significant and stable inhibitory effects against replication of three different PRRSV strains in a dose-dependent manner. ［Conclusion］ The rAd-delivered amiR3UTR had strong anti-PRRSV effect against different PRRSV strains and rAd-amiR3UTR-GFP could be explored further as the alternative strategy against PRRS.     

High Level Expression of Grass Carp Reovirus VP7 Protein in Prokaryotic Cells

Sequences analysis revealed Grass carp reovirus （GCRV） s10 was 909 nucleotides coding a 34 kDa protein denoted as VP7, which was determined to be a viral outer capsid protein （OCP）. To obtain expressed OCP in vitro, a full length VP7 gene was produced by RT-PCR amplification, and the amplified fragment was cloned into T7 promoted prokaryotic expression vector pRSET. The recombinant plasmid, which was named as pR/GCRV-VP7, was then transformed into E.coli BL21 host cells. The data indicated that the expressed recombinant was in frame with the N-terminal fusion peptide. The over-expressed fusion protein was produced by inducing with IPTG, and its molecular weight was about 37kDa, which was consistent with its predicted size. In addition, the fusion protein was produced in the form of the inclusion body with their yield remaining steady at more than 60% of total bacterial protein. Moreover, the expressed protein was able to bind immunologically to anti-his-tag monoclonal antibody （mouse） and anti-GCRV serum （rabbit）. This work provides a research basis for further structure and function studies of GCRV during entry into cells     

The spike protein of severe acute respiratory syndrome (SARS) is cleaved in virus infected Vero-E6 cells

Spike protein is one of the major structural proteins of severe acute respiratory syndrome-coronavirus. It is essential for the interaction of the virons with host cell receptors and subsequent fusion of the viral envelop with host cell membrane to allow infection. Some spike proteins of coronavirus, such as MHV, HCoV-OC43, AIBV and BcoV, are proteolytically cleaved into two subunits, S 1 and S2. In contrast, TGV, FIPV and HCoV-229E are not. Many studies have shown that the cleavage of spike protein seriously affects its function. In order to investigate the maturation and proteolytic processing of the S protein of SARS CoV, we generated S 1 and S2 subunit specific antibodies (Abs) as well as N, E and 3CL protein-specific Abs. Our results showed that the antibodies could efficiently and specifically bind to their corresponding proteins from E.coli expressed or lysate of SARS-CoV infected Vero-E6 cells by Western blot analysis. Furthermore, the anti-S 1 and S2 Abs were proved to be capable of binding to SARS CoV under electron microscope observation. When S2 Ab was used to perform immune precipitation with lysate of SARS-CoV infected cells, a cleaved S2 fragment was detected with S2-specific mAb by Western blot analysis. The data demonstrated that the cleavage of S protein was observed in the lysate, indicating that proteolytic processing of S protein is present in host cells.     

Analyzing the H19- and T65-epitopes in 38 kd phosphory-lated protein of Marek’s disease viruses and comparing chicken immunological reactions to viruses point-mutated in the epitopes

DNA sequencing analysis in 38 kd phosphorylated protein (pp38) ORF of Marek's disease viruses (MDV) indicated that all tested 10 virulent strains with different pathotypes had 'A' at base #320 and glutamine at aa#107 while reacted with monoclonal antibody (Mab) H19 in indirect fluorescence antibody test (IFA). However, vaccine strain CVI988 had 'G' at base#320 and arginine at aa#107 instead, when it was negative in IFA with Mab H19. Some strains were also reactive with Mab T65 in IFA while there was 'G' at base #326 and glycine at aa#109, but the other strains, which had 'A' at base #326 and glutamic acid at aa#109, did not react with Mab T65. By comparison of CVI988 to its point mutants CVI/rpp38(AG) and CVI/rpp38(AA) with 1 or 2 base(s) changes at bases #320 and /or #326 of pp38 gene for their reactivity with Mab H19 and T65, it was confirmed that the glutamine at aa#107 and glycine at aa#109 were critical to epi-topes H19 and T65 respectively. Immuno-reactions to MDV were compared in SPF chickens ino     

Using the SELDI ProteinChip System to Detect Changes in Protein Expression in Vero Cells after Infection

Human herpes simplex virus 1 (HSV-l) causes facial, ocular, and encephalitic disease and is associated with latent infection and cancer. Here, we developed a means of studying the pathogenesis of HSV-l infection at the protein level by using the SELDI Protein Chip to detect changes of protein expression in Vero cells cultured in vitro. After infection with HSV-l and culture for 12, 24 or 48 h, cells were harvested and lysed. IMAC3 arrays were applied to SELDI-TOF-MS to detect proteomic differences before and after infection. The chip detected a series of differentially expressed protein peaks. Interestingly, both peaks at 16 912 Da and 17 581 Da corresponded precisely with the molecular mass of ISG 15, which may participate in antiviral activity during the process of infection. Thus, the results we obtained can serve as a basis to study the pathogenesis of HSV-1 and the interaction between the virus and its host. In addition, they can help in the discovery of new therapeutic targets for treatment of HSV-l infection.     

Synthesis of reassortant infectious bursal disease virus in chickens injected directly with infectious clones from different virus strains

The infectious bursal disease virus (IBDV), a member of the Birnaviridae family, containing a bisegmented double-stranded RNA genome, encodes four structural viral proteins, VP1, VP2, VP3, and VP4, as well as a non-structural protein, VP5. In the present paper, the segment A from two IBDV strains,field isolate ZJ2000 and attenuated strain HZ2, were inserted into one NaeⅠ site by site-directed silent mutagenesis and subcloned into the eukaryotic expression plasmid pCI under the control of the human cytomegalovirus (hCMV) immediate early enhancer and promoter to construct the recombinant plasmids pCI-AKZJ2000 and pCI-AKHZ2, respectively. Each of the two recombinants was combined with another recombinant pCI plasmid containing the marked segment B of strain HZ2 (pCI-mB), and injected intramuscularly into nonimmunized chickens. Two chimeric IBDV strains were recovered from the chickens. Two out of eight chickens in each of two groups showed the bursal histopathological change. The reassortant virus derived from pCI-AKZJ2000/pCI-mB can infect chicken embryos and shows relatively low virulence. We have developed a novel virus reverse genetic approach for the study of IBDV. The results also form the basis for investigating the role of VP1 in viral replication and pathogenecity.     

Binding of HIV-1 virions to α_4β_7 expressing cells and impact of antagonizing α_4β_7 on HIV-1 infection of primary CD4~+ T cells

HIV-1 envelope glycoprotein is reported to interact with α4β7, an integrin mediating the homing of lymphocytes to gut-associated lymphoid tissue, but the significance of α4β7 in HIV-1 infection remains controversial. Here, using HIV-1 strain Ba L, the gp120 of which was previously shown to be capable of interacting with α4β7, we demonstrated that α4β7 can mediate the binding of whole HIV-1 virions to α4β7-expressing transfectants. We further constructed a cell line stably expressing α4β7 and confirmed the α4β7-mediated HIV-1 binding. In primary lymphocytes with activated α4β7 expression, we also observed significant virus binding which can be inhibited by an anti-α4β7 antibody. Moreover, we investigated the impact of antagonizing α4β7 on HIV-1 infection of primary CD4+ T cells. In α4β7-activated CD4+ T cells, both anti-α4β7 antibodies and introduction of shorthairpin RNAs specifically targeting α4β7 resulted in a decreased HIV-1 infection. Our findings indicate that α4β7 may serve as an attachment factor at least for some HIV-1 strains. The established approach provides a promising means for the investigation of other viral strains to understand the potential roles of α4β7 in HIV-1 infection.     

Binding of HIV-1 virions to α4β7 expressing cells and impact of antagonizing α4β7 on HIV-1 infection of primary CD4+ T cells

HIV-1 envelope glycoprotein is reported to interact with α4β7, an integrin mediating the homing of lymphocytes to gut-associated lymphoid tissue, but the significance of α4β7 in HIV-1 infection remains controversial. Here, using HIV-1 strain Ba L, the gp120 of which was previously shown to be capable of interacting with α4β7, we demonstrated that α4β7 can mediate the binding of whole HIV-1 virions to α4β7-expressing transfectants. We further constructed a cell line stably expressing α4β7 and confirmed the α4β7-mediated HIV-1 binding. In primary lymphocytes with activated α4β7 expression, we also observed significant virus binding which can be inhibited by an anti-α4β7 antibody. Moreover, we investigated the impact of antagonizing α4β7 on HIV-1 infection of primary CD4+ T cells. In α4β7-activated CD4+ T cells, both anti-α4β7 antibodies and introduction of shorthairpin RNAs specifically targeting α4β7 resulted in a decreased HIV-1 infection. Our findings indicate that α4β7 may serve as an attachment factor at least for some HIV-1 strains. The established approach provides a promising means for the investigation of other viral strains to understand the potential roles of α4β7 in HIV-1 infection.     

Transcytosis of Junonia coenia densovirus VP4 across the gut epithelium of Spodoptera frugiperda(Lepidoptera:Noctuidae)

The Junonia coenia densovirus rapidly traverses the gut epithelium of the host lepidopteran without replicating in the gut cells.The ability of this virus to transcytose across the gut epithelium is of interest for the potential use of virus structural proteins as delivery vehicles for insecticidal peptides that act within the insect hemocoel,rather than in the gut.In this study,we used fall armyworm,Spodoptera frugiperda to examine the binding of the virus to brush border membrane vesicle proteins by two-dimensional ligand blot analysis.We also assessed the rate of flux of the primary viral structural protein,VP4 fused to eGFP with a proline-rich linker(VP4-P-eGFP)through the gut epithelium ex vivo in an Ussing chamber.The mechanisms involved with transcytosis of VP4-P-eGFP were assessed by use of inhibitors.Bovine serum albumin(BSA)and eGFP were used as positive and negative control proteins,respectively.In contrast to BSA,which binds to multiple proteins on the brush border membrane,VP4-P-eGFP binding was specific to a protein of high molecular mass.Protein flux was significantly higher for VP4-P-eGFP after 2 h than for albumin or eGFP,with rapid transcytosis of VP4-P-eGFP within the first 30 min.In contrast to BSA which transcytosed following clathrin-mediated endocytosis,the movement of VP4-P-eGFP was vesicle-mediated but clathrin-independent.The specificity of binding combined with the efficiency of transport across the gut epithelium suggest that VP4 will provide a useful carrier for insecticidal peptides active within the hemocoel of key lepidopteran pests including S.frugiperda.