JC病毒衣壳蛋白VP1多克隆抗体的制备

目的制备pET-32a(+)-VP1蛋白的多克隆抗体。方法用纯化后的VP1蛋白分4次免疫兔子,颈动脉插管法取血,制得多克隆抗体。结果用ELISA法和Western blot鉴定多克隆抗体的效价得1?320000。该抗体可以用Western blot法检测出59 kD左右的VP1蛋白。结论成功制备高效价的JC病毒衣壳蛋白VP1多克隆抗体。     

Characterization of the VP1 loop mutations widespread among JC polyomavirus isolates associated with progressive multifocal leukoencephalopathy

Recently, we found that JC polyomavirus (JCPyV) associated with progressive multifocal leukoencephalopathy (PML) frequently undergoes amino acid substitutions (designated VP1 loop mutations) in the outer loops of the major capsid protein, VP1. To further characterize the mutations, we analyzed the VP1 region of the JCPyV genome in brain-tissue or cerebrospinal fluid samples from 20 PML patients. VP1 loop mutations occurred far more frequently than silent mutations. Polymorphic residues were essentially restricted to three positions (55, 60, and 66) within the BC loop, one (123) within the DE loop, and three (265, 267, and 269) within the HI loop. The mutations at most polymorphic residues showed a trend toward a change to specific amino acids. Finally, we presented evidence that the VP1 loop mutations were associated with the progression of PML. These findings should form the basis for elucidating the biological significance of the VP1 loop mutations.     

Development and characterization of synthetic antibodies binding to the cystic fibrosis conductance regulator

Cystic fibrosis transmembrane conductance regulator (CFTR) is a chloride channel in the apical surface of epithelial cells in the airway and gastrointestinal tract, and mutation of CFTR is the underlying cause of cystic fibrosis. However, the precise molecular details of the structure and function of CFTR in native and disease states remains elusive and cystic fibrosis researchers are hindered by a lack of high specificity, high affinity binding reagents for use in structural and biological studies. Here, we describe a panel of synthetic antigen-binding fragments (Fabs) isolated from a phage-displayed library that are specific for intracellular domains of CFTR that include the nucleotide-binding domains (NBD1 and NBD2), the R-region, and the regulatory insertion loop of NBD1. Binding assays performed under conditions that promote the native fold of the protein demonstrated that all Fabs recognized full-length CFTR. However, only the NBD1-specific Fab recognized denatured CFTR by western blot, suggesting a conformational epitope requirement for the other Fabs. Surface plasmon resonance experiments showed that the R-region Fab binds with high affinity to both the phosphorylated and unphosphorylated R-region. In addition, NMR analysis of bound versus unbound R-region revealed a distinct conformational effect upon Fab binding. We further defined residues involved with antibody recognition using an overlapping peptide array. In summary, we describe methodology complementary to previous hybridoma-based efforts to develop antibody reagents to CFTR, and introduce a synthetic antibody panel to aid structural and biological studies.     

Specific antibodies reacting to JC polyomavirus capsid protein mimotopes in sera from multiple sclerosis and other neurological diseases-affected patients

Published data support the hypothesis that viruses could be trigger agents of multiple sclerosis onset. This link is based on evidence of early exposure to viral agents in patients affected by this neurologic disease. JC (JC polyomavirus [JCPyV]), BK (BKPyV), and simian virus 40 (SV40) neurotropic polyomavirus footprints have been detected in brain tissue specimens and samples from patients affected by different neurological diseases. In this investigation, serum samples from patients affected by multiple sclerosis and other inflammatory and noninflammatory neurologic diseases, as well as healthy subjects representing the control, were investigated for immunoglobulin G (IgG) antibodies against JCPyV. To this end, an immunologic approach was employed, which consists of employing indirect enzyme-linked immunosorbent assay testing with synthetic peptides mimicking viral capsid protein 1 antigens. A significantly lower prevalence of IgG antibodies against JCPyV VP1 epitopes, with a low titer, was detected in serum samples from patients with multiple sclerosis (MS) and other neurologic diseases than in healthy subjects. Our study indicates that the prevalence of JCPyV antibodies from patients with multiple sclerosis is 50% lower than in healthy subjects, suggesting specific immune impairments. These results indicate that patients affected by neurological diseases, including MS, respond poorly to JCPyV VP1 antigens, suggesting specific immunologic dysfunctions.     

Efficient propagation of progressive multifocal leukoencephalopathy-type JC virus in COS-7-derived cell lines stably expressing Tat protein of human immunodeficiency virus type 1

The high incidence of progressive multifocal leukoencephalopathy (PML) in AIDS patients compared with many other immunosuppressive diseases suggests that HIV-1 infection is strictly related to the activation of JC virus (JCV) propagation. In this report, propagation of PML-type JCV in COS-7-derived cell lines stably expressing HIV-1 Tat (COS-tat cells) has been examined. In COS-tat cells, production of viral particles and replication of genomic DNA were markedly increased compared to COS-7 cells, as judged by HA and real-time PCR analyses. These results demonstrate that COS-tat cells provide a useful model system for studying HIV-1 Tat-mediated propagation of PML-type JCV.     

Tomato is a highly effective vehicle for expression and oral immunization with Norwalk virus capsid protein

Norwalk virus (NV) is an important agent of epidemic gastroenteritis, and an oral subunit vaccine shows potential for protection. Recombinant Norwalk virus (rNV) capsid protein expressed in plants assembles virus-like particles (VLPs) that are orally immunogenic in mice and humans. In this article we examine rNV expression in tomato and potato using a plant-optimized gene, and test the immunogenicity of dried tomato fruit and potato tuber fed to mice. The synthetic gene increased rNV expression fourfold in tomato and potato plants, which assembled VLP. Four doses of 0.4 g freeze-dried tomato fruit containing 64 µg rNV (40 µg VLPs) induced NV-specific serum IgG and mucosal IgA in ≥ 80% of mice, while doses of 0.8 g elicited systemic and mucosal antibody responses in all mice. Feedings of 1 g freeze-dried potato tuber containing 120 µg rNV (90 µg VLPs) were required to produce 100% responsiveness. Oxidation of phenolic compounds upon rehydration of dried tuber caused significant VLP instability, thus decreasing immunogenicity. Air-dried tomato fruit stimulated stronger immune responses than freeze-dried fruit of the same mass, perhaps by limiting the destruction of plant cell matrix and membrane systems that occurs with freeze-drying. Thus, rNV in dried transgenic tomato fruit was a more potent immunogen than that in dried potato tubers, based on the total VLPs ingested. These findings support the use of stabilized, dried tomato fruit for oral delivery of subunit vaccines.     

Synthetic Antibodies Inhibit Bcl-2-associated X Protein (BAX) through Blockade of the N-terminal Activation Site

The BCL-2 protein family plays a critical role in regulating cellular commitment to mitochondrial apoptosis. Pro-apoptotic Bcl-2-associated X protein (BAX) is an executioner protein of the BCL-2 family that represents the gateway to mitochondrial apoptosis. Following cellular stresses that induce apoptosis, cytosolic BAX is activated and translocates to the mitochondria, where it inserts into the mitochondrial outer membrane to form a toxic pore. How the BAX activation pathway proceeds and how this may be inhibited is not yet completely understood. Here we describe synthetic antibody fragments (Fabs) as structural and biochemical probes to investigate the potential mechanisms of BAX regulation. These synthetic Fabs bind with high affinity to BAX and inhibit its activation by the BH3-only protein tBID (truncated Bcl2 interacting protein) in assays using liposomal membranes. Inhibition of BAX by a representative Fab, 3G11, prevented mitochondrial translocation of BAX and BAX-mediated cytochrome c release. Using NMR and hydrogen-deuterium exchange mass spectrometry, we showed that 3G11 forms a stoichiometric and stable complex without inducing a significant conformational change on monomeric and inactive BAX. We identified that the Fab-binding site on BAX involves residues of helices α1/α6 and the α1-α2 loop. Therefore, the inhibitory binding surface of 3G11 overlaps with the N-terminal activation site of BAX, suggesting a novel mechanism of BAX inhibition through direct binding to the BAX N-terminal activation site. The synthetic Fabs reported here reveal, as probes, novel mechanistic insights into BAX inhibition and provide a blueprint for developing inhibitors of BAX activation.     

Generation of human single-chain variable fragment antibodies specific to dengue virus non-structural protein 1 that interfere with the virus infectious cycle

Severe forms of dengue virus (DENV) infection frequently cause high case fatality rate. Currently, there is no effective vaccine against the infection. Clinical cases are given only palliative treatment as specific anti-DENV immunotherapy is not available and it is urgently required. In this study, human single-chain variable fragment (HuScFv) antibodies that bound specifically to the conserved non-structural protein-1 (NS1) of DENV and interfered with the virus replication cycle were produced by using phage display technology. Recombinant NS1 (rNS1) of DENV serotype 2 (DENV2) was used as antigen in phage bio-panning to select phage clones that displayed HuScFv from antibody phage display library. HuScFv from two phagemid transformed E. coli clones, i.e., clones 11 and 13, bound to the rNS1 as well as native NS1 in both secreted and intracellular forms. Culture fluids of the HuScFv11/HuScFv13 exposed DENV2 infected cells had significant reduction of the infectious viral particles, implying that the antibody fragments affected the virus morphogenesis or release. HuScFv epitope mapping by phage mimotope searching revealed that HuScFv11 bound to amino acids 1–14 of NS1, while the HuScFv13 bound to conformational epitope at the C-terminal portion of the NS1. Although the functions of the epitopes and the molecular mechanism of the HuScFv11 and HuScFv13 require further investigations, these small antibodies have high potential for development as anti-DENV biomolecules.     

Generation of human single-chain variable fragment antibodies specific to dengue virus non-structural protein 1 that interfere with the virus infectious cycle

Severe forms of dengue virus (DENV) infection frequently cause high case fatality rate. Currently, there is no effective vaccine against the infection. Clinical cases are given only palliative treatment as specific anti-DENV immunotherapy is not available and it is urgently required. In this study, human single-chain variable fragment (HuScFv) antibodies that bound specifically to the conserved non-structural protein-1 (NS1) of DENV and interfered with the virus replication cycle were produced by using phage display technology. Recombinant NS1 (rNS1) of DENV serotype 2 (DENV2) was used as antigen in phage bio-panning to select phage clones that displayed HuScFv from antibody phage display library. HuScFv from two phagemid transformed E. coli clones, i.e., clones 11 and 13, bound to the rNS1 as well as native NS1 in both secreted and intracellular forms. Culture fluids of the HuScFv11/HuScFv13 exposed DENV2 infected cells had significant reduction of the infectious viral particles, implying that the antibody fragments affected the virus morphogenesis or release. HuScFv epitope mapping by phage mimotope searching revealed that HuScFv11 bound to amino acids 1–14 of NS1, while the HuScFv13 bound to conformational epitope at the C-terminal portion of the NS1. Although the functions of the epitopes and the molecular mechanism of the HuScFv11 and HuScFv13 require further investigations, these small antibodies have high potential for development as anti-DENV biomolecules.     

Expression of viral capsid protein antigen against Epstein-Barr virus in plastids of Nicotiana tabacum cv. SR1

Epstein-Barr virus (EBV) infects nearly 90% of adults worldwide and is the pathogenic source of a broad spectrum of malignancies originating from lymphoid and epithelial cells. Currently, no vaccine has been developed to immunologically inactivate this virus. In infected patients, anti-EBV viral capsid antigen (VCA) immunoglobins represent some of the useful diagnostic markers for carcinoma development. To demonstrate that the EBV VCA antigen can be produced in plants, the plastid genome of tobacco (Nicotiana tabacum cv. SR1) was transformed with a VCA-expressing cassette. The EBV VCA mRNA was actively transcribed in the transplastomic plants and antigen production was detected. This study indicates that plastid transformation could be a promising strategy in EBV VCA antigen production.     

Screening HIV‐1 antigenic peptides as receptors for antibodies and CD4 in allosteric nanosensors

We have analyzed the suitability of six antigenic peptides from several HIV‐1 structural proteins (namely gp41, gp120, p17, and p24), as anti‐HIV‐1 antibody receptors in an allosteric enzymatic biosensor. These peptides were inserted in a solvent‐exposed surface of Escherichia coli (E. coli) beta‐galactosidase by means of conventional recombinant DNA technology. The resulting enzymes were tested to allosterically respond to sera from HIV‐1‐infected individuals. Only stretches from gp41 and gp120 envelope proteins were able to transduce the molecular contact signal in the presence of immunoreactive sera. Intriguingly, the enzyme displaying the CD4 binding site segment KQFINMWQEVGKAMYAPP was activated by soluble CD4, suggesting that it produces conformational modifications on the allosteric enzyme as those occurring during antibody‐promoted induced fit. This fact is discussed in the context of the design of smart protein drugs and markers targeted to CD4⁺ cells. Copyright © 2009 John Wiley & Sons, Ltd.     

Phage-display and correlated mutations identify an essential region of subdomain 1C involved in homodimerization of Escherichia coli FtsA

FtsA plays an essential role in Escherichia coli cell division and is nearly ubiquitous in eubacteria. Several evidences postulated the ability of FtsA to interact with other septation proteins and with itself. To investigate these binding properties, we screened a phage-display library with FtsA. The isolated peptides defined a degenerate consensus sequence, which in turn displayed a striking similarity with residues 126-133 of FtsA itself. This result suggested that residues 126-133 were involved in homodimerization of FtsA. The hypothesis was supported by the analysis of correlated mutations, which identified a mutual relationship between a group of amino acids encompassing the ATP-binding site and a set of residues immediately downstream to amino acids 126-133. This information was used to assemble a model of a FtsA homodimer, whose accuracy was confirmed by probing multiple alternative docking solutions. Moreover, a prediction of residues responsible for protein-protein interaction validated the proposed model and confirmed once more the importance of residues 126-133 for homodimerization. To functionally characterize this region, we introduced a deletion in ftsA, where residues 126-133 were skipped. This mutant failed to complement conditional lethal alleles of ftsA, demonstrating that amino acids 126-133 play an essential role in E. coli.     

Preparation and characterization of monoclonal antibodies against VP1 protein of foot-and-mouth disease virus O/China99

Monoclonal antibodies (McAbs) 1A9 and 9F12 against Foot-and-mouth disease virus (FMDV) serotype O were produced by fusing SP2/0 myeloma cells with splenocyte from the mouse immunized with O/China99. Both McAbs reacted with O/China99 but not with Asia 1, as determined by immunohistochemistry assay. The microneutralization titer of the McAbs 1A9 and 9F12 were 640 and 1 280, respectively. Both McAbs contain kappa light chains, but the McAbs 1A9 and 9F12 were IgG1 and IgM, respectively. In order to define the McAbs binding epitopes, the reactivity of these McAbs against VP1, P20 and P14 were examined using indirect ELISA, the result showed that both McAbs reacted with VP1 and P20. McAbs may be used for further studies of vaccine, diagnostic methods, prophylaxis, etiological and immunological researches on FMDV.     

Mutations in capsid major homology region affect assembly and membrane affinity of HIV-1 Gag

We introduced mutations into the HIV-1 major homology region (MHR; capsids 153-172) and adjacent C-terminal region to analyze their effects on virus-like particle (VLP) assembly, membrane affinity, and the multimerization of the Gag structural protein. Results indicate that alanine substitutions at K158, F168 or E175 significantly diminished VLP production. All assembly-defective Gag mutants had markedly reduced membrane-binding capacities, but results from a velocity sedimentation analysis suggest that most of the membrane-bound Gag proteins were present, primarily in a higher-order multimerized form. The membrane-binding capacity of the K158A, F168A, and E175A Gag proteins increased sharply upon removal of the MA globular domain. While demonstrating improved multimerization capability, the two MA-deleted versions of F168A and E175A did not show marked improvement in VLP production, presumably due to a defect in association with the raft-like membrane domain. However, K158A bound to detergent-resistant raft-like membrane; this was accompanied by noticeably improved VLP production following MA removal. Our results suggest that the HIV-1 MHR and adjacent downstream region facilitate multimerization and tight Gag packing. Enhanced Gag multimerization may help expose the membrane-binding domain and thus improve Gag membrane binding, thereby promoting Gag multimerization into higher-order assembly products.     

猪脑心肌炎病毒非结构蛋白3AB的原核表达及其单克隆抗体的研制

摘要　目的　利用原核表达系统表达猪脑心肌炎病毒 (EMCV) 非结构蛋白3AB,并通过杂交瘤细胞技术制备其单克隆抗体,为相关研究工作奠定基础。方法　利用大肠杆菌系统表达具有良好抗原性的重组3AB蛋白,经包涵体纯化后免疫BALB/ c 小鼠, 取其脾细胞与小鼠骨髓瘤细胞融合, 间接ELISA筛选阳性的杂交瘤细胞, 并结合免疫荧光(IFA)和Weatern Blot对抗体的特异性进行鉴定。 结果　经间接ELISA 筛选阳性的杂交瘤细胞, 获得1株能稳定分泌抗3AB蛋白抗体的杂交瘤细胞株,将其命名为2D12,其亚类测定为IgG1 /κ。Western Blot和间接免疫荧光试验证明该单抗能特异性识别3AB蛋白。结论　成功获得了针对EMCV-3AB 的特异性单抗,为进一步研究猪脑心肌炎病毒非结构蛋白3AB的结构与功能及临床诊断试剂的研发奠定必要的物质基础。     

灰飞虱内生病毒HiPV外壳蛋白VP1多克隆抗体的制备及在病毒检测中的应用

【目的】前期发现水稻条纹病毒(rice stripe virus, RSV)可与介体灰飞虱Laodelphax striatellus体内的HiPV病毒(Himetobi P virus, HiPV)互作。本研究旨在制备HiPV外壳蛋白VP1的多克隆抗体,并评估其在HiPV病毒检测中的可用性,以为深入研究HiPV-RSV和HiPV-灰飞虱的互作机制提供技术支持。【方法】以RT-PCR方法从灰飞虱成虫体内扩增HiPV主要外壳蛋白基因VP1,然后将VP1基因亚克隆至原核表达载体pET-32a中,构建表达载体pET-VP1。将重组质粒转化大肠杆菌Escherichia coli BL21 (DE3),经IPTG诱导、Ni²⁺-NTA亲和层析纯化,获得重组蛋白,免疫新西兰大白兔,制备抗体。【结果】从灰飞虱体内克隆到774 bp的HiPV外壳蛋白基因VP1,经原核表达、纯化,获得分子量约47.5 kD的融合蛋白,免疫新西兰大白兔后获得VP1多克隆抗体。该抗体间接ELISA效价达1∶819 200,与HiPV外壳蛋白VP1有特异性反应,而与灰飞虱蛋白无交叉反应。利用该多克隆抗体建立了检测单头灰飞虱成虫体内HiPV的Western blot和免疫捕获RT-PCR方法,检测结果显示HiPV在携带和不携带RSV的灰飞虱高亲和性群体内均广泛存在。【结论】利用制备的HiPV的VP1多克隆抗体可特异性检测灰飞虱体内HiPV。本研究为HiPV病毒的快速检测以及HiPV-RSV互作、HiPV-灰飞虱互作研究提供了技术支持。     

Transgenic resistance to <Emphasis Type="Italic">Cymbidium mosaic virus</Emphasis> in <Emphasis Type="Italic">Dendrobium</Emphasis> expressing the viral capsid protein gene

A Taiwan isolate of Cymbidium mosaic virus (CymMV-CS) was isolated from infected Cymbidium sinesis Willd. The cDNA of the capsid protein (CP) gene was synthesized and sequenced. Alignment of this CP gene with other reported CPs revealed homologies of 92–98% at the nucleotide level and 98–99% at the amino acid level. To generate virus-resistant varieties, the CymMV-CS CP gene was transformed into Dendrobium protocorms through particle bombardment. Transformants were selected on medium supplemented with 20 mg/L hygromycin and the presence of the transgene was confirmed by polymerase chain reaction, Southern, Northern and Western blot analyses. Transgenic Dendrobium harboring the CymMV CP gene expressed a very low level of virus accumulation four months post-inoculation with CymMV, as detected by ELISA. The transgenic plants exhibited much milder symptoms than the non-transgenic plants upon challenge with CymMV virionsSequence data reported from this article have been deposited at the GenBank Data Libraries under Accession No. AY429021.     

Synthetic peptides derived from an N‐terminal domain of the E2 protein of GB virus C in the study of GBV‐C/HIV‐1 co‐infection

Synthetic peptides derived from GB virus C (GBV‐C) have previously been studied in our group for the development of new systems capable of diagnosing diseases caused by this humanotropic virus. We also recently described specific peptide domains of the E2 envelop protein of GBV‐C that have the capacity to interfere with the HIV‐1 fusion peptide, produce a notable decrease in cellular membrane fusion, and perturb HIV‐1 infectivity in a dose‐dependent manner. The present work discloses the design and synthesis of both linear and cyclic branched peptides based on a previously reported N‐terminal sequence of the GBV‐C E2 protein. Immunoassays and cell–cell fusion assays were performed to evaluate their diagnostic value to detect anti‐GBV‐C antibodies in HIV‐1 patients, as well as their putative anti‐HIV‐1 activity as entry inhibitors. Our results showed that chemical modifications of the selected E2(7–26) linear peptide to afford cyclic architecture do not result in an enhanced inhibition of gp41 HIV‐1‐mediated cell–cell fusion nor improved sensitivity in the detection of GBV‐C antibodies in HIV‐1 co‐infected patients. Thus, the ELISA data reinforce the potential utility of linear versions of the E2(7–26) region for the development of new peptide‐based immunosensor devices for the detection of anti‐GBV‐C antibodies in HIV‐1 co‐infected patients. Copyright © 2012 European Peptide Society and John Wiley & Sons, Ltd.