登革病毒衣壳蛋白在大肠杆菌中的表达及其自组装活性的研究

采用高保真RT-PCR自登革2型病毒43株基因组RNA中扩增全长C基因及缺失羧基端Cv片段,分别构建可表达C及Cv的重组质粒pLEX—C和pLEX—Cv,转化E．coliGI724后用色氨酸诱导表达。经SDS—PAGE分析,表达的C及Cv蛋白相对分子质量分别约为12000和10000,分别约占菌体蛋白总量的19％和13％。Western印迹检测表明重组表达的C蛋白均可被特异识别登革病毒衣壳蛋白的单克隆抗体特异识别。表达的蛋白经过硫酸铵沉淀和蔗糖密度梯度离心后,通过琼脂糖凝胶电泳和负染电镜均未能检测到衣壳样颗粒的存在,说明登革病毒衣壳蛋白可能不具体外自组装活性。     

Comparative studies of the capsid precursor polypeptide P1 and the capsid protein VP1 cDNA vectors for DNA vaccination against foot-and-mouth disease virus

BACKGROUND: Foot-and-mouth disease virus (FMDV) causes a severe livestock disease, and the virus is an interesting target for virology and vaccine studies. MATERIALS AND METHODS: Here we evaluated comparatively three different viral antigen-encoding DNA sequences, delivered via two physical means (i.e., gene gun delivery into skin and electroporation delivery into muscle), for naked DNA-mediated vaccination in a mouse system. RESULTS: Both methods gave similar results, demonstrating commonality of the observed DNA vaccine effects. Immunization with a cDNA vector expressing the major viral antigen (VP1) alone routinely failed to induce the production of anti-VP1 or neutralizing antibodies in test mice. As a second approach, the plasmid L-VP1 that produces a transgenic membrane-anchored VP1 protein elicited a strong antibody response, but all test mice failed in the FMDV challenge experiment. In contrast, for mice immunized with the viral capsid precursor protein (P1) cDNA expression vector, both neutralizing antibodies and 80-100% protection in test mice were detected. CONCLUSIONS: This strategy of using the whole capsid precursor protein P1 cDNA for vaccination, intentionally without the use of virus-specific protease or other encoding genes for safety reasons, may thus be employed as a relevant experimental system for induction or upgrading of effective neutralizing antibody response, and as a convenient surrogate test system for DNA vaccination studies of FMDV and presumably other viral diseases.     

Host factors associated with the kinetics of Epstein-Barr virus DNA load in patients with primary Epstein-Barr virus infection

The aims of this study were to elucidate the kinetics of Epstein-Barr virus (EBV) DNA load in serially collected peripheral blood mononuclear cells of patients with primary EBV infection, and to determine the correlated host factors. Blood samples were collected from 24 patients with primary EBV infection. EBV DNA copy numbers were measured using real-time polymerase chain reaction. Based on the kinetics of EBV DNA load, the 24 patients were divided into two groups: rapid regression and slow regression. Eighteen of the 24 patients (75%) were included in the slow regression and 6 (25%) in the rapid regression group. No statistically significant differences were observed between the two groups in clinical features and laboratory findings. However, acute phase (3 to 10 days after the onset of the illness) serum samples from six children in the slow regression and four in the rapid regression group revealed significantly higher serum interleukin (IL)-1β (P= 0.018), IL-12 (P= 0.009), tumor necrosis factor-α (P= 0.019), interferon-inducible protein 10, and monokine induced by interferon γ concentrations in the rapid regression than the slow regression group. On the other hand, sera from six children in the slow regression and four in the rapid regression group in the convalescent phase (14 to 21 days after the onset of the illness) showed no statistically significant differences between the two groups in these biomarker concentrations. Based on this, it was concluded that the kinetics of EBV DNA load can be divided to two different patterns after primary EBV infection, and immune response might be associated with viral clearance.     

Expression of coat protein gene of Cucumber mosaic virus (CMV-subgroup IA) Gladiolus isolate in Nicotiana tabacum

The coat protein (CP)-mediated resistance against Cucumber mosaic virus (CMV) subgroup IA was developed in transgenic lines of Nicotiana tabacum cv. Petit Havana using Agrobacterium tumefaciens-mediated transformation. Ten independently transformed lines have developed, four of which were tested for resistance against CMV using virus challenge inoculations. The transgenic lines exhibiting complete resistance remained healthy and symptomless in their life span and showed reduced or no virus accumulation in their systemic leaves after virus challenge inoculation. These transgenic lines also showed resistance against CMV strains which are not closely related to CMV-Gladiolus strains. This is the first report of CP-mediated transgenic resistance against a CMV subgroup IA member isolated from India showing resistance to all CMV strains occurring in the same vicinity.     

Theoretical aspects of virus capsid assembly

A virus capsid is constructed from many copies of the same protein(s). Molecular recognition is central to capsid assembly. The capsid protein must polymerize in order to create a three-dimensional protein polymer. More than structure is required to understand this self-assembly reaction: one must understand how the pieces come together in solution.     

Expression of recombinant capsid proteins of chitta virus, a genogroup II Norwalk virus, and development of an ELISA to detect the viral antigen

The second open reading frame (ORF2) gene of the Chitta virus (CHV) was cloned to construct a recombinant baculovirus. The CHV ORF2 is predicted to encode a capsid protein of 535 amino acids (aa). CHV showed a high aa identity in the capsid region with genogroup II Norwalk virus (NV) (65-85%), but a low aa identity with genogroup I NV (44-46%). Phylogenetic analysis of the ORF2 gene demonstrated that CHV is genetically closely related to the Hawaii virus included in genogroup II NV. The recombinant capsid protein of CHV (rCHV) self-assembled to form empty virus-like particles (VLPs) when expressed in insect cells with the recombinant baculovirus. An enzyme-linked immunosorbent assay (ELISA) based on antisera to rCHV was developed to detect CHV antigen in stools. The antigen ELISA appeared to be highly specific to both rCHV and CHV-like strains. In addition, combined use of antigen ELISAs using antibodies against two antigenically distinct recombinant VLPs, the recombinant Chiba virus (rCV) and recombinant Seto virus (rSEV), enabled us to determine the genetic as well as antigenic relationship among these three viruses.     

EB病毒潜伏膜蛋白1多态性与鼻咽癌的关系

为了分析广东地区鼻咽癌病人和非鼻咽癌病人携带的Epstein-Barr病毒（EBV）潜伏膜蛋白1（LMP1）基因多态性,探讨LMP1基因羧基端缺失30个碱基的EBV是否与华南地区鼻咽癌高发有关。为此收集了初始的107例鼻咽癌病人和106例非鼻咽癌肿病人的漱口液,用巢式PCR扩增LMP1羧基端,观察缺失型LMP1的构成比。同时,测序分析缺失型LMP1编码区序列,了解缺失型LMP1多态性与鼻咽癌的关联度。结果：在50％的样品中可检出LMP1基因,缺失型LMP1在鼻咽癌病人和非鼻咽病人的构成比相似,约占70？％,原型和缺失型LMP1混合感染少见（0－6％）。另外,广州地区的缺失型LMP序列与上海、台湾、香港地区的缺失型LMP1基因高度同源,鼻咽癌病人是和非鼻咽癌病人携带的缺失型LMP1基因序列基本相同。此结果表明,广州地区流行的LMP1羧基端缺失30个碱基的EBV株,漱口液中检测出的缺失型与原型LMP1构成比约为7：3,在鼻咽癌病人和非鼻咽癌病人此分布情况相似。     

Genetic heterogeneity of the immunogenic viral capsid protein region of human parvovirus B19 isolates obtained from an outbreak in a pediatric ward

Whereas human parvovirus B19 commonly infects children and causes erythema infectiosum, it causes more severe diseases when it infects adults. In order to examine whether different clinical outcomes of B19 infection can be ascribed to the viral genetic heterogeneity, we have determined the nucleotide sequence of highly immunogenic portions of the B19 genome obtained from six patients with various clinical manifestations in a single outbreak. Our observations demonstrated that although the B19 sequences showed a significant heterogeneity, it was not correlated with the clinical manifestation. It was thus suggested that the host immune response to B19 infection may be a major determinant of clinical presentations associated with acute B19 infection.     

Killer cell immunoglobulin-like receptor gene polymorphisms predispose susceptibility to Epstein-Barr virus associated hemophagocytic lymphohistiocytosis in Chinese children

Epstein-Barr virus associated hemophagocytic lymphohistiocytosis (EBV-HLH) has a high mortality rate among children. The pathogenesis of, and underlying predisposing factors for, EBV-HLH are as yet unclear; however, natural killer cells may play a key role in progression of the disease. This study attempted to determine whether killer cell immunoglobulin-like receptor (KIR) gene polymorphisms are responsible for susceptibility to EBV-HLH. Of the 125 children with EBV infection studied, 59 had EBV-HLH and 66 patients had EBV associated infectious mononucleosis (IM) without HLH. The control group was 146 normal children without immune deficiency. KIR polymorphisms were determined by polymerase chain reaction with sequence-specific primers. KIR polymorphism data were analyzed using the X(2) test or Fisher's exact test. The overall observed carrier frequency (OF) of KIR2DS5 was significantly higher in EBV-HLH patients than in IM patients and normal controls (49.2% versus 31.8%, P = 0.048; 49.2% versus 31.5%, P = 0.018, respectively), and the odds ratios (95% confidence interval) were 2.071 (1.001-4.286) and 2.101(1.132-3.900) respectively. The OF of KIR3DS1 was significantly higher in the EBV-HLH patients than in the IM patients (47.4% versus 24.6%, P = 0.012), but not different from normal controls. In summary, KIR polymorphisms may be involved in the development of EBV-HLH, with KIR2DS5 promoting susceptibility to this disease. The obtained KIR data will enrich the understanding of genetic relationships among diseases associated with EBV infection in children.     

Latent membrane protein 1 of Epstein-Barr virus plays an important role in the serum starvation resistance of Epstein-Barr virus-immortalized B lymphocytes

We have previously shown that SNU-1103, which is a latency type III Epstein-Barr virus (EBV)-transformed lymphoblastoid cell line (LCL) that was developed from a Korean cancer patient, resists serum starvation-induced G(1) arrest. In this study, we examined the role of latent membrane protein-1 (LMP-1) in serum starvation resistance, since LMP-1 is known to be essential for EBV-mediated immortalization of human B lymphocytes. The LMP-1 gene from SNU-1103 was introduced into the EBV-negative BJAB cell line, and shown to be associated with resistance to G(1) arrest during serum starvation. Western blot analyses of the LMP-1-transfected cells revealed several protein alterations as compared to vector-transfected control cells. The expression of key cell-cycle regulatory proteins was affected in the G(1) phase: the expression of cyclin D3, CDK2, p27, and E2F-4 was up-regulated, and the expression of cyclin D2, CDK6, p21, and p103 was down-regulated during serum starvation. These results imply that of the several EBV viral genes expressed in EBV-negative B lymphoma cells, LMP-1 mediates resistance to serum starvation-induced G(1) arrest. However, we cannot rule out the possibility that other EBV genes are also involved in the cell-cycle progression of the EBV-transformed LCL during serum starvation, since the altered protein expression profile of the LMP-1 transfectants was distinct from that of the SNU-1103 cells that expressed all of the EBV viral proteins.     

EB病毒早期蛋白P54的原核表达及其免疫原性的研究

PCR法获得编码EB病毒早期蛋白P54的基因BMRFl,序列分析后亚克隆入原核表达载体pET30a。表达质粒pET30a-BMRF1在大肠杆菌BL21(DE3)菌株中经IPTG诱导后表达了P54抗原,SDS—PAGE表明其相对分子质量为51000;采用镍离子亲和柱纯化重组蛋白。Western印迹结果表明纯化蛋白免疫BALB／c小鼠后产生了P54特异性抗体。间接免疫荧光表明免疫血清可以识别激活的Raji细胞中表达的P54蛋白。以上结果表明构建了原核表达质粒pET30a-BMRF1并在大肠杆菌细胞中成功表达EB病毒早期蛋白P54,表达蛋白具有很好的抗原性和免疫原性。     

戊型肝炎病毒IV型衣壳蛋白缺失突变体原核表达与性质

采用PCR技术扩增基因IV型HEV(Hepatitis E Virus,HEV)开放阅读框2(Open Reading Frame 2,ORF2)的缺失突变体(aa384-606),亚克隆到表达载体后,转化到大肠杆菌中进行诱导表达,表达蛋白命名为rP24。SDS-PAGE和免疫印迹实验表明,rP24获得了高效表达,且和单克隆抗体15B2具有强的反应活性。rP24经过包涵体洗涤、溶解复性、离子交换层析和分子筛层析纯化后,免疫印迹实验表明,纯化rP24能与抗HEV ORF2中和单克隆抗体8C11以及HE(Hepatitis E,HE)阳性血清发生很强的免疫反应性,说明rP24上具有构象型中和表位,模拟了HEV衣壳蛋白的空间结构。动态光散色测量结果表明,rP24的平均水化半径为7.48 nm;纯化rP24免疫动物实验表明,rP24具有强的抗原性,小鼠阳转周期短,抗体持续时间长;纯化rP24作为包被抗原检测HE阳性血清和阴性血清,结果显示rP24对HE阳性血清和阴性血清检出率与北京万泰公司的抗HEV-IgG检测试剂盒的检出率一致。这些实验结果说明,具有较好免疫反应性和免疫原性的rP24获得了高效表达,该蛋白模拟了天然病毒衣壳蛋白的中和表位,为进一步研究基因I型和基因IV型HEV感染不同宿主细胞差异的分子机制奠定了基础。     

A mutation in Epstein-Barr virus LMP2A reveals a role for phospholipase D in B-Cell antigen receptor trafficking

Epstein-Barr virus (EBV) latent infection of B cells blocks the interrelated signaling and antigen-trafficking functions of the BCR through the activity of its latent membrane protein 2A (LMP2A). At present, the molecular mechanisms by which LMP2A exerts its control of BCR functions are only poorly understood. Earlier studies showed that in B cells expressing LMP2A containing a tyrosine mutation at position 112 in its cytoplasmic domain (Y112-LMP2A), the BCR could initiate signaling but could not properly traffic antigen for processing. Here, we show that BCR signaling in Y112-LMP2A-expressing cells is attenuated with a reduction in both the degree and duration of phosphorylation of key components of the BCR signaling cascade including Syk, BLNK, PI3K, and Btk. Notably, Y112-LMP2A expression completely blocked the BCR-induced activation of phospholipase D (PLD), a lipase implicated in the intracellular trafficking of a variety of surface receptors. We show that blocking PLD activity, by expressing Y112-LMP2A, treating cells with the PLD inhibitor 1-butanol or reducing PLD expression by siRNA, blocked BCR trafficking to class II-containing compartments. Moreover, Y112-LMP2A expression blocked the recruitment of phosphorylated forms of the downstream BCR signaling components, Erk and JNK, through both PLD-dependent and PLD-independent mechanisms. Thus, the investigation of the mechanism by which Y112-LMP2A blocks BCR function revealed an essential role for PLD in BCR trafficking for antigen processing.     

Hepatitis E virus capsid protein assembles in 4M urea in the presence of salts

The hepatitis E virus (HEV) capsid protein has been demonstrated to be able to assemble into particles in vitro. However, this process and the mechanism of protein–protein interactions during particle assembly remain unclear. In this study, we investigated the assembly mechanism of HEV structural protein subunits, the capsid protein p239 (aa368–606), using analytical ultracentrifugation. It was the first to observe that the p239 can form particles in 4M urea as a result of supplementation with salt, including ammonium sulfate [(NH₄)₂SO₄], sodium sulfate (Na₂SO₄), sodium chloride (NaCl), and ammonium chloride (NH₄Cl). Interestingly, it is the ionic strength that determines the efficiency of promoting particle assembly. The assembly rate was affected by temperature and salt concentration. When (NH₄)₂SO₄ was used, assembling intermediates of p239 with sedimentation coefficient values of approximately 5 S, which were mostly dodecamers, were identified for the first time. A highly conserved 28‐aa region (aa368–395) of p239 was found to be critical for particle assembly, and the hydrophobic residues Leu³⁷², Leu³⁷⁵, and Leu³⁹⁵of p239 was found to be critical for particle assembly, which was revealed by site‐directed mutagenesis. This study provides new insights into the assembly mechanism of native HEV, and contributes a valuable basis for further investigations of protein assembly by hydrophobic interactions under denaturing conditions.     

Visualization of actin cytoskeletal dynamics during the cell cycle in tobacco (Nicotiana tabacum L. cv Bright Yellow) cells

BACKGROUND INFORMATION: The actin cytoskeleton forms distinct actin arrays which fulfil their functions during cell cycle progression. Reorganization of the actin cytoskeleton occurs during transition from one actin array to another. Although actin arrays have been well described during cell cycle progression, the dynamic organization of the actin cytoskeleton during actin array transition remains to be dissected. RESULTS: In the present study, a GFP (green fluorescent protein)-mTalin (mouse talin) fusion gene was introduced into suspension-cultured tobacco BY-2 (Nicotiana tabacum L. cv Bright Yellow) cells by a calli-cocultivation transformation method to visualize the reorganization of the actin cytoskeleton in vivo during the progression of the cell cycle. Typical actin structures were indicated by GFP-mTalin, such as the pre-prophase actin band, mitotic spindle actin filament cage and phragmoplast actin arrays. In addition, dynamic organization of actin filaments was observed during the progression of the cell from metaphase to anaphase. In late metaphase, spindle actin filaments gradually shrank to the equatorial plane along both the long and short axes. Soon after the separation of sister chromosomes, actin filaments aligned in parallel at the cell division plane, forming a cylinder-like structure. During the formation of the cell plate, one cylinder-like structure changed into two cylinder-like structures: the typical actin arrays of the phragmoplast. However, the two actin arrays remained overlapping at the margin of the centrally growing cell plate, forming an actin wreath. When the cell plate matured further, an actin filament network attached to the cell plate was formed. CONCLUSIONS: Our results clearly describe the dynamic organization of the actin cytoskeleton during mitosis and cytokinesis of a plant cell. This demonstrates that GFP-mTalin-transformed tobacco BY-2 cells are a valuable tool to study actin cytoskeleton functions in the plant cell cycle.     

Degradation signals within both terminal domains of the cauliflower mosaic virus capsid protein precursor

Targeted protein degradation plays an important regulatory role in the cell, but only a few protein degradation signals have been characterized in plants. Here we describe three instability determinants in the termini of the cauliflower mosaic virus (CaMV) capsid protein precursor, of which one is still present in the mature capsid protein p44. A modified ubiquitin protein reference technique was used to show that these motifs are still active when fused to a heterologous reporter gene. The N-terminus of p44 contains a degradation motif characterized by proline, glutamate, aspartate, serine and threonine residues (PEST), which can be inactivated by mutation of three glutamic acid residues to alanines. The signals from the precursor do not correspond to known degradation motifs, although they confer high instability on proteins expressed in plant protoplasts. All three instability determinants were also active in mammalian cells. The PEST signal had a significantly higher degradation activity in HeLa cells, whereas the precursor signals were less active. Inhibition studies suggest that only the signal within the N-terminus of the precursor is targeting the proteasome in plants. This implies that the other two signals may target a novel degradation pathway.