HIV结构蛋白与痘苗病毒共表达产物的免疫原性研究

目的 将艾滋病病毒外膜蛋白(env)与干扰素(IFNα-2b)融合基因表达的融合蛋白作为免疫原免疫小鼠,观察小鼠的免疫功能状态和细胞免疫应答.方法 将IFNα-2b基因片段插入到env基因的下游,经脂质体转染,筛选重组痘苗病毒,经SDS-PAGE和Western blot鉴定表达产物.用重组病毒vJ1 6env/IFNα-2b免疫小鼠,以生理盐水和野生型痘苗病毒作为对照,检测小鼠脾淋巴细胞对ConA、LPS及IgG的反应性;用流式细胞仪测定小鼠脾淋巴细胞CD4 、CD8T细胞计数与CTL.结果 与对照组比较,实验组脾淋巴细胞对ConA、LPS及IgG的反应性显著增高(P＜0.05);CD4T淋巴细胞计数和CTL活性也显著增高(P＜0.05);CD8T淋巴细胞计数呈增高趋势,但未达到显著意义的程度.结论 重组痘苗病毒v J16env/IFNα-2b能增强小鼠的免疫功能和诱导细胞免疫.     

Immunophysical properties and prediction of activities for vaccinia virus complement control protein and smallpox inhibitor of complement enzymes using molecular dynamics and electrostatics

We present immunophysical modeling for VCP, SPICE, and three mutants using MD simulations and Poisson-Boltzmann-type electrostatic calculations. VCP and SPICE are homologous viral proteins that control the complement system by imitating, structurally and functionally, natural regulators of complement activation. VCP and SPICE consist of four CCP modules connected with short flexible loops. MD simulations demonstrate that the rather complex modules of VCP/SPICE and their mutants exhibit a high degree of intermodular spatial mobility, which is affected by surface mutations. Electrostatic calculations using snapshots from the MD trajectories demonstrate variable spatial distribution of the electrostatic potentials, which suggests dynamic binding properties. We use covariance analysis to identify correlated modular oscillations. We also use electrostatic similarity indices to cluster proteins with common electrostatic properties. Our results are compared with experimental data to form correlations between the overall positive electrostatic potential of VCP/SPICE with binding and activity. We show how these correlations can be used to predict binding and activity properties. This work is expected to be useful for understanding the function of native CCP-containing regulators of complement activation and receptors and for the design of antiviral therapeutics and complement inhibitors.     

Vaccinia complement control protein: Multi-functional protein and a potential wonder drug

Vaccinia virus complement control protein (VCP) was one of the first viral molecules demonstrated to have a role in blocking complement and hence in the evasion of host defense. Structurally it is very similar to the human C4b-BP and the other members of complement control protein. Functionally it is most similar to the CR1 protein. VCP blocks both major pathways of complement activation. The crystal structure of VCP was determined a little over a year ago and it is the only known structure of an intact and complete complement control protein. In addition to binding complement, VCP also binds to heparin. These two binding abilities can take place simultaneously and contribute to its many function and to its potential use in several inflammatory diseases, e.g. Alzheimer's disease (AD), CNS injury, xenotransplantation, etc. making it a truly fascinating molecule and potential drug.     

口蹄疫O型重组病毒的构建及其免疫原性分析

【目的】利用反向遗传操作技术,构建含O型口蹄疫病毒(food-and-mouth disease virus, FMDV) 3个拓扑型免疫优势结构蛋白基因的重组FMDV,评估其作为猪O型口蹄疫(food-and-mouth disease, FMD)疫苗候选株的潜力。【方法】通过基因合成,在FMD疫苗株O/HN/CHA/93 (古典中国拓扑型)的基因中嵌合流行株O/NXYCh/CHA/2018 (东南亚拓扑型) VP1结构蛋白的重组病毒骨架上,用O/TUR/5/2009疫苗株(中东-南亚拓扑型) VP1蛋白的G-H环基因替换其对等基因,构建含O型3个拓扑型FMDV结构蛋白基因的重组全长质粒,Not I线性化后转染表达T7 RNA聚合酶的BSR/T7细胞,拯救重组病毒。通过RT-PCR、序列测定、间接免疫荧光鉴定重组病毒;噬斑试验和一步生长曲线分析重组病毒的生物学特性。重组病毒制备疫苗免疫猪,用病毒中和试验分析其对当前流行的O型3个拓扑型FMDV的交叉反应性。【结果】成功拯救到含O型3个拓扑型FMDV结构蛋白基因的重组病毒,重组病毒与亲本病毒具有相似的生物学特性。亲本病毒和重组病毒制备的疫苗免疫猪,均能够对中东-南亚型(Middle East-South Asia, ME-SA)拓扑型和东南亚型(South-East Asia, SEA)拓扑型病毒株产生保护性平均中和抗体(>1.65log₁₀);均不能对古典中国型(Cathay)拓扑型流行株产生保护性平均中和抗体(<1.65log₁₀),但与亲本病毒相比,O/TUR/5/2009疫苗株G-H环基因的替换显著提高了对ME-SA和SEA拓扑型病毒株的交叉反应性(p<0.05)。【结论】本研究对未来FMD疫苗的设计具有重要的指导意义。     

Expression and characterization of bovine lactoperoxidase by recombinant vaccinia virus

Lactoperoxidase (LPO) is a 78 kDa heme-containing oxidation–reduction enzyme present in milk, found in physiological fluids of mammals. LPO has an antimicrobial activity, and presumably contribute to the protective functions of milk against infectious diseases. In this study, recombinant vaccinia virus expressing bovine LPO (vv/bLPO) was constructed. In rabbit kidney (RK13) cells infected with vv/bLPO, recombinant bLPO was detected in both cell extracts and culture supernatants. Tunicamycin treatment decreased the molecular weight of recombinant bLPO, indicating that recombinant bLPO contains a N-linked glycosylation site. The replication of recombinant vaccinia viruses expressing bovine lactoferrin (vv/bLF) at a multiplicity of infection (moi) of 5 plaque-forming units (PFU)/cell was inhibited by antiviral activity of recombinant bLF, suggesting that vv/bLF has an antiviral effect against vaccinia virus. On the other hand, the replication of vv/bLPO at a moi of 5 PFU/cell was not inhibited by antiviral activity of recombinant bLPO, indicating that this recombinant virus could be used as a suitable viral vector. These results indicate that a combination of bLPO and vaccinia virus vector may be useful for medical and veterinary applications in vivo.     

The role of calcium andN-linked glycans in the oligomerization and carbohydrate binding properties of human immunodeficiency virus external envelope glycoprotein

Envelope glycoproteins of human immunodeficiency virus (gp120 and gp41) occur as oligomers. Here, we show by gel filtration analysis that gp 120 oligomerizationin vitro is calcium- and temperature-dependent. Recombinant gp120 (rgp120) species were recovered as monomers at 20 °C in the absence of calcium, but as tetramers at 37 °C in 10mm CaCl₂. Under the latter condition,N-glycanase-deglycosylated rgp120 formed hexamers. Relative to intact rgp120, which has been reported to display carbohydrate-binding properties forN-acetyl--d-glucosaminyl and mannosyl residues, deglycosylation enhanced rgp120 specific binding to mannose-divinylsulfone-agarose, para-aminophenyl--d-GlcNAc-agarose and fetuin-agarose matrices. Taken together, these results rule out the role of homologous lectin-carbohydrate interactions viaN-linked glycans in the rgp120 oligomerization, even though its lectin properties may also be calcium-dependent. Deglycosylation may unmask domains of rgp120 polypeptide backbone that independently play a role either in rgp120 lectin activity or in calcium-dependent oligomerization.     

Influence of human tryptophan hydroxylase 2 N- and C-terminus on enzymatic activity and oligomerization

Tryptophan hydroxylase (TPH) catalyses the first and rate limiting step in the biosynthesis of the neurotransmitter serotonin. There are two TPH isoenzymes in humans, encoded by two different genes: TPH1 and the recently described TPH2. We have expressed both human enzymes and various deletion mutants of TPH2 (DeltaN44, DeltaC17, DeltaC19, DeltaC51) in COS7 cells. TPH1 and 2 displayed different kinetic properties with a lower K(m) value of TPH1. Removal of 44 amino acids from the N-terminus of TPH2 resulted in a 3-4-fold increased V(max), which indicates a strong inhibitory function of this part on the enzymes activity. TPH1 and 2 were able to form homooligomers and also heterooligomers with each other. The different deletion mutants (DeltaC17, DeltaC19 and DeltaC51), which lack the putative C-terminal leucine zipper tetramerization domain, existed as monomeric enzymes. While short deletions (DeltaC17 and DeltaC19) hardly changed V(max) values, the DeltaC51 mutant lost 99% of TPH activity. These data identify a region between the C-terminal oligomerization domain and the catalytic domain, which is indispensable for TPH2 activity.     

表达猪瘟病毒E2蛋白的BacMam病毒的构建及其免疫原性分析

含具有哺乳动物细胞活性的启动子的重组杆状病毒(BacMam病毒)可有效转导多种哺乳动物细胞,并被广泛用于开发新型非复制型载体疫苗．将水泡性口炎病毒G蛋白(VSV-G)基因插入多角体启动子下游,得到经修饰的杆状病毒转移载体,将对虾白斑综合症病毒(WSSV)ie1启动子控制下的猪瘟病毒E2基因表达盒插入此载体中,构建了BacMam病毒BacMam/G-ie1-E2,以其感染Sf9细胞和转导HeLa细胞,通过间接免疫荧光试验和Western blot分析检测E蛋白的表达,同时用BacMam病毒直接免疫小鼠,用检测猪瘟病毒抗体的间接ELISA方法检测免疫小鼠血清抗体,用基于CFSE和WST-8的淋巴细胞增殖试验评价其细胞免疫应答．结果显示,BacMam/G-ie1-E2能同时在昆虫细胞和哺乳动物细胞中高效表达E2蛋白,免疫小鼠能诱导产生针对猪瘟病毒的特异性抗体,免疫小鼠脾细胞经猪瘟病毒刺激后能诱导特异性的淋巴细胞增殖．这表明,由BacMam病毒介导的基因转移有望用于开发针对猪瘟病毒的非复制型载体疫苗．     

Persistent measles virus infection enhances major histocompatibility complex class I expression and immunogenicity of murine neuroblastoma cells

The effect of persistent measles virus infection on the expression of major histocompatibility complex (MHC) class I antigens was studied. Mouse neuroblastoma cells C1300, clone NS20Y, were persistently infected with the Edmonston strain of measles virus. The persistently infected cell line, NS20Y/MS, expressed augmented levels of both H-2K^k and H-2D^d MHC class I glycoproteins. Activation of two interferon(IFN)-induced enzymes, known to be part of the IFN system: (2–5)oligoadenylate synthetase and double-stranded-RNA-activated protein kinase, was detected. Measles-virus-infected cells elicited cytotoxic T lymphocytes that recognized and lysed virus-infected and uninfected neuroblastoma cells in an H-2-restricted fashion. Furthermore, immunization of mice with persistently infected cells conferred resistance to tumor growth after challenge with the highly malignant NS20Y cells. The rationale for using measles virus for immunotherapy is that most patients develop lifelong immunity after recovery or vaccination from this infection. Patients developing cancer are likely to have memory cells. A secondary response induced by measles-virus-infected cells may therefore induce an efficient immune response against non-infected tumour cells.     

Influence of glycosylation pattern on the molecular properties of monoclonal antibodies

Glycosylation is an important post-translational modification during protein production in eukaryotic cells, and it is essential for protein structure, stability, half-life, and biological functions. In this study, we produced various monoclonal antibody (mAb) glycoforms from Chinese hamster ovary (CHO) cells, including the natively glycosylated antibody, the enriched G0 form, the deglycosylated form, the afucosylated form, and the high mannose form, and we compared their intrinsic properties, side-by-side, through biophysical and biochemical approaches. Spectroscopic analysis indicates no measureable secondary or tertiary structural changes after in vitro or in vivo modification of the glycosylation pattern. Thermal unfolding experiments show that the high mannose and deglycosylated forms have reduced thermal stability of the CH2 domain compared with the other tested glycoforms. We also observed that the individual domain’s thermal stability could be pH dependent. Proteolysis analysis indicates that glycosylation plays an important role in stabilizing mAbs against proteases. The stability of antibody glycoforms at the storage condition (2–8 °C) and at accelerated conditions (30 and 40 °C) was evaluated, and the results indicate that glycosylation patterns do not substantially affect the storage stability of the antibody we studied.     

Expression of herpes simplex virus glycoprotein D on antigen presenting cells infected with vaccinia recombinants and protective immunity

We studied the effect of the temporal regulation of herpes simplex virus (HSV) type 1 glycoprotein D (gD-1) expression in Ia⁺ epidermal cells (EC) and macrophages on virus specific immunity and protection from HSV-2 challenge. gD-1 was expressed on the surface of cells infected with a vaccinia recombinant containing gD-1 under the control of an early vaccinia virus promoter (VP176). It was not expressed in cells infected with a recombinant (VP254) in which gD-1 is controlled by a late vaccinia virus promoter. BALB/c mice immunized with both recombinants seroconverted to HSV-2 as determined by neutralization. However, HSV specific delayed type hypersensitivity (DTH) responses were significantly (p<0.025) higher in VP176 than VP254 immunized animals. Both VP176 and VP254 immunized mice were protected from severe neurological disease due to HSV-2 challenge at 14 days post immunization, but long term protection was observed only in VP176 immunized mice.     

Influence of glycosylation pattern on the molecular properties of monoclonal antibodies

Glycosylation is an important post-translational modification during protein production in eukaryotic cells, and it is essential for protein structure, stability, half-life, and biological functions. In this study, we produced various monoclonal antibody (mAb) glycoforms from Chinese hamster ovary (CHO) cells, including the natively glycosylated antibody, the enriched G0 form, the deglycosylated form, the afucosylated form, and the high mannose form, and we compared their intrinsic properties, side-by-side, through biophysical and biochemical approaches. Spectroscopic analysis indicates no measureable secondary or tertiary structural changes after in vitro or in vivo modification of the glycosylation pattern. Thermal unfolding experiments show that the high mannose and deglycosylated forms have reduced thermal stability of the CH2 domain compared with the other tested glycoforms. We also observed that the individual domain’s thermal stability could be pH dependent. Proteolysis analysis indicates that glycosylation plays an important role in stabilizing mAbs against proteases. The stability of antibody glycoforms at the storage condition (2–8 °C) and at accelerated conditions (30 and 40 °C) was evaluated, and the results indicate that glycosylation patterns do not substantially affect the storage stability of the antibody we studied.     

猪繁殖与呼吸综合征病毒GP5和M蛋白的真核表达及免疫原性评价

为了解我国猪繁殖与呼吸综合征病毒(porcine reproductive and respiratory syndrome virus,PRRSV)的流行及进化情况并开发针对流行谱系的亚单位疫苗,对2001-2021年间分离于我国的PRRSV毒株进行遗传进化分析,选用优势流行谱系代表毒株,优化其GP5和M蛋白的基因序列,与干扰素(interferon,IFN)和免疫球蛋白的Fc区串联后,构建真核表达质粒pCDNA3.4-IFNα-GP5-Fc和pCDNA3.4-IFNα-M-Fc,并使用HEK293T真核表达系统表达重组蛋白IFNα-GP5-Fc和IFNα-M-Fc。将2种重组蛋白与ISA206VG佐剂混匀,免疫断奶仔猪,通过酶联免疫吸附试验(enzymelinked immunosorbentassay,ELISA)及中和试验评价体液免疫水平,酶联免疫斑点试验(enzyme-linked immunospot assay, ELISPOT)评价细胞免疫水平。试验结果表明,NADC30-like谱系为近年我国主要流行的谱系,IFNα-GP5-Fc和IFNα-M-Fc组合免疫仔猪能诱导...     

Extensive genomic and functional polymorphism of the complement control proteins

Using combinations of genomic markers, we describe more than 20 distinct ancestral haplotypes (AH) of complement control proteins (CCPs), located within the regulators of complement activation (RCA) alpha block at 1q32. This extensive polymorphism, including functional sites, is important because CCPs are involved in the regulation of complement activation whilst also serving as self and viral receptors. To identify haplotypes, we used the genomic matching technique (GMT) based on the pragmatic observation that extreme nucleotide polymorphism is packaged with duplicated sequences as polymorphic frozen blocks (PFB). At each PFB, there are many alternative sequences (haplotypes) which are inherited faithfully from very remote ancestors. We have compared frequencies of RCA haplotypes and report differences in recurrent spontaneous abortion (RSA) and psoriasis vulgaris (PV).     

Kinetic analysis of the interactions between vaccinia virus complement control protein and human complement proteins C3b and C4b

The vaccinia virus complement control protein (VCP) is an immune evasion protein of vaccinia virus. Previously, VCP has been shown to bind and support inactivation of host complement proteins C3b and C4b and to protect the vaccinia virions from antibody-dependent complement-enhanced neutralization. However, the molecular mechanisms involved in the interaction of VCP with its target proteins C3b and C4b have not yet been elucidated. We have utilized surface plasmon resonance technology to study the interaction of VCP with C3b and C4b. We measured the kinetics of binding of the viral protein to its target proteins and compared it with human complement regulators factor H and sCR1, assessed the influence of immobilization of ligand on the binding kinetics, examined the effect of ionic contacts on these interactions, and sublocalized the binding site on C3b and C4b. Our results indicate that (i) the orientation of the ligand is important for accurate determination of the binding constants, as well as the mechanism of binding; (ii) in contrast to factor H and sCR1, the binding of VCP to C3b and C4b follows a simple 1:1 binding model and does not involve multiple-site interactions as predicted earlier; (iii) VCP has a 4.6-fold higher affinity for C4b than that for C3b, which is also reflected in its factor I cofactor activity; (iv) ionic interactions are important for VCP-C3b and VCP-C4b complex formation; (v) VCP does not bind simultaneously to C3b and C4b; and (vi) the binding site of VCP on C3b and C4b is located in the C3dg and C4c regions, respectively.     

牛病毒性腹泻病毒1型病毒样颗粒的制备及其对豚鼠的免疫原性分析

为了获得预防牛病毒性腹泻病毒1型(bovine viral diarrhea virus 1,BVDV-1)感染的病毒样颗粒,扩增C-Ems-E1-E2编码区段并克隆至pFastBacDaul载体,转化大肠杆菌DH10Bac感受态细胞与Bacmid重组获得Bacmid-BVDV-1,转染至Sf9细胞,获得重组杆状病毒B...     

Oral immunogenicity of porcine reproductive and respiratory syndrome virus antigen expressed in transgenic banana

Porcine reproductive and respiratory syndrome virus (PRRSV) is a persistent threat of economically significant influence to the swine industry worldwide. Recombinant DNA technology coupled with tissue culture technology is a viable alternative for the inexpensive production of heterologous proteins in planta. Embryogenic cells of banana cv. ‘Pei chiao’ (AAA) have been transformed with the ORF5 gene of PRRSV envelope glycoprotein (GP5) using Agrobacterium‐mediated transformation and have been confirmed. Recombinant GP5 protein levels in the transgenic banana leaves were detected and ranged from 0.021%–0.037% of total soluble protein. Pigs were immunized with recombinant GP5 protein by orally feeding transgenic banana leaves for three consecutive doses at a 2‐week interval and challenged with PRRSV at 7 weeks postinitial immunization. A vaccination‐dependent gradational increase in the elicitation of serum and saliva anti‐PRRSV IgG and IgA was observed. Furthermore, significantly lower viraemia and tissue viral load were recorded when compared with the pigs fed with untransformed banana leaves. The results suggest that transgenic banana leaves expressing recombinant GP5 protein can be an effective strategy for oral delivery of recombinant subunit vaccines in pigs and can open new avenues for the production of vaccines against PRRSV.