Expression and Stability of Foreign Epitopes Introduced into 3A Nonstructural Protein of Foot-and-Mouth Disease Virus

Foot-and-mouth disease virus (FMDV) is an aphthovirus that belongs to the Picornaviridae family and causes one of the most important animal diseases worldwide. The capacity of other picornaviruses to express foreign antigens has been extensively reported, however, little is known about FMDV. To explore the potential of FMDV as a viral vector, an 11-amino-acid (aa) HSV epitope and an 8 aa FLAG epitope were introduced into the C-terminal different regions of 3A protein of FMDV full-length infectious cDNA clone. Recombinant viruses expressing the HSV or FLAG epitope were successfully rescued after transfection of both modified constructs. Immunofluorescence assay, Western blot and sequence analysis showed that the recombinant viruses stably maintained the foreign epitopes even after 11 serial passages in BHK-21 cells. The 3A-tagged viruses shared similar plaque phenotypes and replication kinetics to those of the parental virus. In addition, mice experimentally infected with the epitope-tagged viruses could induce tag-specific antibodies. Our results demonstrate that FMDV can be used effectively as a viral vector for the delivery of foreign tags.     

VP1 of foot-and-mouth disease virus induces apoptosis via the Akt signaling pathway

Foot-and-mouth disease virus (FMDV) binds to cellular integrins through an RGD motif in its capsid protein, VP1. It is unclear, however, what kind of cellular event(s) are triggered after the binding of VP1 to the cells. In this study, we show that aqueous soluble recombinant DNA-derived VP1 (rVP1) of FMDV induced apoptosis of BHK-21 cells after binding to integrins. In addition, treatment of BHK-21 cells with rVP1 resulted in deactivation of Akt and enhancement of several proapoptotic responses such as dephosphorylation of glycogen synthase kinase-3beta and cleavage of procaspase-3, -7, and -9. Additional studies revealed that the rVP1 treatment caused apoptosis of cancer cells, including MCF-7 (a breast carcinoma cell line with a functional deletion of the caspase-3 gene) and PC-3 (a sphingosine 1-phosphate receptor subtype 3-deficient androgen-independent prostate cancer cell line). These results suggest that rVP1 of FMDV may be used selectively as a potent apoptotic agent for human cancer by modulating the Akt signaling pathway and that its effect is not primarily dependent on either activation of procaspase-3 or deactivation of sphingosine 1-phosphate receptor subtype 3.     

Asia 1型口蹄疫病毒抗原表位突变株的构建及其生物学特性分析

为了研制口蹄疫抗原表位突变标记疫苗,本研究以含有Asia 1型口蹄疫病毒(FMDV)c DNA全长的感染性克隆p Asia 1-FMDV作为骨架,将3D蛋白中第27位氨基酸的H和31位的氨基酸N分别突变成Y和R,从而突变3D蛋白的一个抗原表位,将构建的带有突变表位的重组质粒转染BHK-21细胞,成功拯救出一株突变FMDV。经比较后发现,重组病毒的生物学特性与亲本毒株相似。病毒中和试验结果显示,抗重组病毒的血清与亲本病毒有良好的反应性。Western blotting结果表明重组病毒诱导的抗体能与突变的表位合成肽反应而不与野生型病毒的表位合成肽发生反应,从而区分重组病毒与亲本病毒。综上所述,这株抗原表位突变FMDV有望作为口蹄疫标记疫苗候株进一步评估。     

Identification of T-cell epitopes in nonstructural proteins of foot-and-mouth disease virus

Porcine T-cell recognition of foot-and-mouth disease virus (FMDV) nonstructural proteins (NSP) was tested using in vitro lymphoproliferative responses. Lymphocytes were obtained from outbred pigs experimentally infected with FMDV. Of the different NSP, polypeptides 3A, 3B, and 3C gave the highest stimulations in the in vitro assays. The use of overlapping synthetic peptides allowed the identification of amino acid regions within these proteins that were efficiently recognized by the lymphocytes. The sequences of some of these antigenic peptides were highly conserved among different FMDV serotypes. They elicited major histocompatibility complex-restricted responses with lymphocytes from pigs infected with either a type C virus or reinfected with a heterologous FMDV. A tandem peptide containing the T-cell peptide 3A[21-35] and the B-cell antigenic site VP1[137-156] also efficiently stimulated lymphocytes from infected animals in vitro. Furthermore, this tandem peptide elicited significant levels of serotype-specific antiviral activity, a result consistent with the induction of anti-FMDV antibodies. Thus, inclusion in the peptide formulation of a T-cell epitope derived from the NSP 3A possessing the capacity to induce T helper activity can allow cooperative induction of anti-FMDV antibodies by B cells.     

3A蛋白104–115位氨基酸缺失口蹄疫A型标记病毒的构建

【目的】构建一株含3A非结构蛋白104–115位氨基酸缺失的口蹄疫A型标记病毒,分析其生物学特性和发展标记疫苗的潜力。【方法】采用融合PCR技术,在当前流行毒株A/Sea-97/CHA/2014全长感染性克隆p QAHN中引入3A104–115位氨基酸的缺失,构建全长重组质粒。全长质粒经NotI线化后转染表达T7RNA聚合酶的稳定细胞系,拯救标记病毒。RT-PCR、序列分析、间接免疫荧光和Western blotting鉴定标记病毒。噬斑表型和一步生长曲线分析标记病毒的生物学特性,并用实验室开发的针对3A优势表位(AEKNPLE)的阻断ELISA方法分析其区分亲本和标记病毒感染的动物。【结果】成功拯救到一株含3A 104–115位氨基酸缺失的口蹄疫A型标记病毒,3A表位的缺失没有影响标记病毒的噬斑表型和一步生长曲线。3A单抗阻断ELISA可以明显区分标记病毒和亲本病毒感染的动物。【结论】本研究构建的3A蛋白104–115位氨基酸缺失的标记病毒可以作为发展口蹄疫鉴别诊断疫苗的候选毒株,用于我国未来口蹄疫A型的有效防控。     

FMDV非结构蛋白2C主要表位区与3AB基因的组合表达与活性分析

近年的研究表明, 口蹄疫病毒(FMDV)非结构蛋白(NSP)2C在区分灭活疫苗免疫动物与自然感染动物方面具有潜在的价值, 为了建立敏感性更高的鉴别诊断方法, 将截取了2C蛋白N-端和C-端的主要B细胞表位区和完整3AB蛋白基因组合后, 进行了原核表达, 得到了分子量约为47.6 kD的目的蛋白2C￠3AB。通过Western blotting分析证明, 表达产物能被FMDV感染动物阳性血清识别, 具有很好的反应性。以通过电泳纯化的目的蛋白作抗原进行间接ELISA检测不同来源的动物血清, 结果表明, 该抗原仅与感染动物血清具有很好的反应活性, 而与健康动物与免疫动物血清无反应, 说明重组蛋白2C￠3AB可作为区分灭活疫苗免疫动物与感染动物的鉴别诊断抗原。用2C￠3AB和3ABC为抗原进行间接ELISA, 对比检测田间血清样品, 结果显示2C￠3AB-ELISA敏感性比3ABC-ELISA高。说明以重组蛋白2C￠3AB作为鉴别诊断抗原, 能进一步提高对临界值血清的检出率, 这对区分灭活疫苗免疫动物与FMDV隐性感染动物与带毒动物具有非常重要的意义。     

miRNA干扰口蹄疫病毒基因组早期复制的初步研究

根据miRNA的设计要求,以miR-31为模型通过软件设计出潜在的能够使3D基因沉默的特异性miRNA序列3D-1203,并以pcDNA3.1(+)质粒为载体构建能够表达成熟miRNA的重组质粒,将其转染到BHK-21细胞后感染口蹄疫病毒,研究3D-1203的miRNA的干扰作用。蚀斑实验结果显示特异性miRNA可以在早期抑制口蹄疫病毒的复制,与阳性对照相比,病毒复制效率降低53.0%。实时TaqMan荧光定量RT-PCR检测数据表明特异性miRNA干扰病毒基因组增殖的效率达66.7%。本研究证明,利用miR-31设计的特异性miRNA在病毒复制早期能够特异的干扰口蹄疫的复制。     

An ELISA based on the repeated foot-and-mouth disease virus 3B epitope peptide can distinguish infected and vaccinated cattle

To develop a strategy of differentiating infected from vaccinated animals (DIVA) with foot-and-mouth disease virus (FMDV), a short (27aa) peptide containing three conserved linear B cell epitopes of the FMDV 3B nonstructural protein was designed. This novel BF peptide was synthesized using a gene splicing by overlap extension protocol with preferred codons for Escherichia coli. The resultant eight tandem repeat multimer (1, 2, 4, 6, 8, 16, 24, and 32BF) were expressed as soluble fusion proteins in E. coli. An indirect ELISA was developed based on the recombinant 8BF protein with the aim of specifically distinguishing antibodies induced by FMDV infection but not those induced by vaccination. Using the cut-off value of 0.3, the sensitivity of the assay was 96.8% and the specificities for naive and vaccinated cattle were 99.8 and 99.0%, respectively. The performance of the newly developed epitope-based ELISA was compared with three commercial NSP ELISA kits. The 8BF-ELISA appears to be a promising DIVA test for FMD control and eradication.     

Transient Gene Expression in Serum-Free Suspension-Growing Mammalian Cells for the Production of Foot-and-Mouth Disease Virus Empty Capsids

Foot-and-mouth disease (FMD) is a highly contagious disease of cloven-hoofed animals. It produces severe economic losses in the livestock industry. Currently available vaccines are based on inactivated FMD virus (FMDV). The use of empty capsids as a subunit vaccine has been reported to be a promising candidate because it avoids the use of virus in the vaccine production and conserves the conformational epitopes of the virus. In this report, we explored transient gene expression (TGE) in serum-free suspension-growing mammalian cells for the production of FMDV recombinant empty capsids as a subunit vaccine. The recombinant proteins produced, assembled into empty capsids and induced protective immune response against viral challenge in mice. Furthermore, they were recognized by anti-FMDV bovine sera. By using this technology, we were able to achieve expression levels that are compatible with the development of a vaccine. Thus, TGE of mammalian cells is an easy to perform, scalable and cost-effective technology for the production of a recombinant subunit vaccine against FMDV.     

一种制备口蹄疫抗原和高免血清的新方法

口蹄疫是一种一类传染病,其病原为口蹄疫病毒(FMDV)。FMDV衣壳蛋白VP1含有中和性抗原表位。本研究合成了编码O型FMDVVP1蛋白中和性抗原表位的双拷贝DNA片段,将其克隆于原核表达载体pGEX-6p-1中,以获得的重组质粒转化大肠杆菌,然后用IPTG进行诱导,表达出了大小约为33kDa的GST融合重组蛋白,Westernblotting分析证实,重组蛋白可以被O型FMDV抗血清所识别。用纯化的重组蛋白免疫豚鼠制备高免血清,ELISA检测表明,免疫后的豚鼠血清抗体滴度可达1∶20560以上。本研究提供了一种制备口蹄疫抗原和高免血清的新方法。     

Rapid Selection in Modified BHK-21 Cells of a Foot-and-Mouth Disease Virus Variant Showing Alterations in Cell Tropism

With persistent foot-and-mouth disease virus (FMDV) in BHK-21 cells, there is coevolution of the cells and the resident virus; the virulence of the virus for the parental BHK-21 cells is gradually increased, and the cells become partially resistant to FMDV. Here we report that variants of FMDV C₃Arg/85 were selected in a single infection of partially resistant BHK-21 cells (termed BHK-Rb cells). Indirect immunofluorescence showed that the BHK-Rb cell population was heterogeneous with regard to susceptibility to C₃Arg/85 infection. Infection of BHK-Rb cells with C₃Arg/85 resulted in an early phase of partial cytopathology which was followed at 6 to 10 days postinfection by the shedding of mutant FMDVs, termed C₃-Rb. The selected C₃-Rb variants showed increased virulence for BHK-21 cells, were able to overcome the resistance of modified BHK-21 cells to infection, and had acquired the ability to bind heparin and to infect wild-type Chinese hamster ovary (CHO) cells. A comparison of the genomic sequences of the parental and modified viruses revealed only two amino acid differences, located at the surface of the particle, at the fivefold axis of the viral capsid (Asp-9→Ala in VP3 and either Gly-110→Arg or His-108→Arg in VP1). The same phenotypic and genotypic modifications occurred in a highly reproducible manner; they were seen in a number of independent infections of BHK-Rb cells with viral preparation C₃Arg/85 or with clones derived from it. Neither amino acid substitutions in other structural or nonstructural proteins nor nucleotide substitutions in regulatory regions were found. These results prove that infection of partially permissive cells can promote the rapid selection of virus variants that show alterations in cell tropism and are highly virulent for the same cells.     

Analysis of a foot-and-mouth disease virus type A24 isolate containing an SGD receptor recognition site in vitro and its pathogenesis in cattle

Foot-and-mouth disease virus (FMDV) initiates infection by binding to integrin receptors via an Arg-Gly-Asp (RGD) sequence found in the G-H loop of the structural protein VP1. Following serial passages of a type A(24) Cruzeiro virus (A(24)Cru) in bovine, via tongue inoculation, a virus was generated which contained an SGD sequence in the cell receptor-binding site and expressed a turbid plaque phenotype in BHK-21 cells. Propagation of this virus in these cells resulted in the rapid selection of viruses that grew to higher titers, produced clear plaques, and now contained an RGD sequence in place of the original SGD. To study the role of the SGD sequence in FMDV receptor recognition and bovine virulence, we assembled an infectious cDNA clone of an RGD-containing A(24)Cru and derived mutant clones containing either SGD with a single nucleotide substitution in the R(144) codon or double substitutions at this position to prevent mutation of the S to an R. The SGD viruses grew poorly in BHK-21 cells and stably maintained the sequence during propagation in BHK-21 cells expressing the bovine alpha(V)beta(6) integrin (BHK3-alpha(V)beta(6)), as well as in experimentally infected and contact steers. While all the SGD-containing viruses used only the bovine alpha(V)beta(6) integrin as a cellular receptor with relatively high efficiency, the revertant RGD viruses utilized either the alpha(V)beta(1) or alpha(V)beta(3) bovine integrins with higher efficiency than alpha(V)beta(6) and grew well in BHK-21 cells. Replacing the R at the -1 SGD position with either K or E showed that this residue did not contribute to integrin utilization in vitro. These results illustrate the rapid evolution of FMDV with alteration in receptor specificity and suggest that viruses with sequences other than RGD, but closely related to it, can still infect via integrin receptors and induce and transmit the disease to susceptible animals.     

Inactivation of Foot-and-Mouth Disease Virus with Ethylenimine

Foot-and-mouth disease virus (FMDV) was inactivated by ethylenimine (EI) at three concentrations and two temperatures. Comparison of inactivation kinetics and the antigenic and immunogenic potency of EI and N-acetylethylenimine (AEI)-inactivated FMDV indicates that EI has nearly optimal characteristics as an inactivant for FMDV vaccine preparation. Although AEI-inactivated FMDV has proved to be a potent specific immunogen, an equivalent percentage of EI inactivated FMDV at substantially faster rates and produced an equally potent immunogen. In addition, EI inactivated FMDV at rates that were essentially linear throughout the loss of nearly all measurable infectivity.     

口蹄疫病毒持续感染细胞系的快速选择及其特性研究

采用NH4Cl弱碱法处理感染口蹄疫病毒的叙利亚仓鼠肾细胞系(BHK—21),存活细胞经过单克隆和选择,获得32株阳性克隆细胞株。随机选取一株(BHK—ROp),常规传代并采用RT-PCR,透射电子显微镜,流式细胞仪进行持续感染特性分析,结果表明,BHK—ROp第4,16,36代细胞中病毒持续存在,但不影响细胞的生长特性,表现出病毒持续感染的基本特征。可见,NH4Cl弱碱法用于建立病毒持续感染细胞系是十分有效的。     

Inhibition of foot-and-mouth disease virus infections in cell cultures with antisense morpholino oligomers

Foot-and-mouth disease (FMD) is a highly contagious viral disease of cloven-hoofed ungulates that can lead to severe losses in the livestock production and export industries. Although vaccines have been extensively used to control FMD, there is no antiviral therapy available to treat ongoing infections with FMD virus (FMDV). Six peptide-conjugated morpholino oligomers (PPMOs) with sequences complementary to various 21-nucleotide segments of the 5' and 3' untranslated regions (UTRs) of the FMDV genome (strain A(24) Cruzeiro/Brazil/1955 [A(24)Cru]) were evaluated in cell cultures. Three of the PPMOs, targeting domain 5 of the internal ribosome entry site (5D PPMO), and the two translation start codon regions (AUG1 and AUG2 PPMOs), showed high levels of anti-FMDV activity. A dose-dependent and sequence-specific reduction in viral titers of greater than 5 log(10), with a concomitant reduction of viral protein and RNA expression, was achieved at low micromolar concentrations. Under identical conditions, three other PPMOs targeting the 5'-terminal region of the genome, the cis-acting replication element in the 5' UTR, and the 3' "ab" stem-loop showed less dramatic titer reductions of 1.5 log(10) to 2 log(10). Treatment with 5D PPMO reduced the titers of FMDV strains representing five different serotypes by 2 log(10) to 4 log(10) compared to those of the controls. A(24)Cru-infected BHK-21 cells treated repeatedly with 5D or AUG2 PPMO generated resistant viruses for which phenotypic and genotypic properties were defined. Notably, three passages with low concentrations of the AUG1 PPMO extinguished all traces of detectable virus. The results indicate that PPMOs have potential for treating FMDV infections and that they also represent useful tools for studying picornaviral translation and evolution.     

口蹄疫病毒多基因重组质粒在BHK-21细胞中的表达

利用定点突变的原理,获得包含有口蹄疫病毒P1,2A,3C及部分2B编码区的目的基因片段,KpnⅠ和XbaⅠ双酶切后,定向克隆于真核表达质粒载体pcDNA3.1（+）,经筛选、鉴定及DNA序列分析后,将重组质粒pcDNA3.1/P12X3C转染BHK-21细胞,通过双抗体夹心ELISA方法和间接免疫荧光标记方法,检测细胞中表达的口蹄疫病毒抗原。结果表明,口蹄疫病毒基因片段正确克隆到真核表达质粒载体上,重组质粒pcDNA3.1/P12X3C可在BHK-21细胞中表达FMDV目的蛋白。     

用口蹄疫病毒非结构蛋白区分注苗动物和自然感染动物研究进展

口蹄疫是由口蹄疫病毒引起的偶蹄类动物烈性传染病,疫苗接种是防治口蹄疫暴发的主要措施之一,而要控制口蹄疫流行,首先要将病毒感染动物从疫苗接种群体中区分开来。以口蹄疫病毒非结构蛋白（NSP）为抗原,检测动物体内的NSP抗体是一种很好的区分感染动物和疫苗免疫动物的诊断方法,许多实验室开展了相关研究,并取得了一定的成绩。