A transgenic plant cell‐suspension system for expression of epitopes on chimeric Bamboo mosaic virus particles

We describe a novel strategy to produce vaccine antigens using a plant cell‐suspension culture system in lieu of the conventional bacterial or animal cell‐culture systems. We generated transgenic cell‐suspension cultures from Nicotiana benthamiana leaves carrying wild‐type or chimeric Bamboo mosaic virus (BaMV) expression constructs encoding the viral protein 1 (VP1) epitope of foot‐and‐mouth disease virus (FMDV). Antigens accumulated to high levels in BdT38 and BdT19 transgenic cell lines co‐expressing silencing suppressor protein P38 or P19. BaMV chimeric virus particles (CVPs) were subsequently purified from the respective cell lines (1.5 and 2.1 mg CVPs/20 g fresh weight of suspended biomass, respectively), and the resulting CVPs displayed VP1 epitope on the surfaces. Guinea pigs vaccinated with purified CVPs produced humoral antibodies. This study represents an important advance in the large‐scale production of immunopeptide vaccines in a cost‐effective manner using a plant cell‐suspension culture system.     

Enhancing effects of the chemical adjuvant levamisole on the DNA vaccine pVIR‐P12A‐IL18‐3C

DNA‐based vaccination is an attractive alternative for overcoming the disadvantages of inactivated virus vaccines; however, DNA vaccines alone often generate only weak immune responses. In this study, the efficacy of LMS as a chemical adjuvant on a DNA vaccine (pVIR‐P12A‐IL18‐3C) encoding the P1‐2A and 3C genes of the FMDV and swine IL‐18, which provides protection against FMDV challenge, was tested. All test pigs were administered booster vaccinations 28 days after the initial inoculation, and were challenged with 1000 ID₅₀ FMDV O/NY00 20 days after the booster vaccination. Positive and negative control groups were inoculated with inactivated virus vaccine and PBS respectively. The DNA vaccine plus LMS induced greater humoral and cell‐mediated responses than the DNA vaccine alone, as evidenced by higher concentrations of neutralizing and specific anti‐FMDV antibodies, and by higher concentrations of T‐lymphocyte proliferation and IFN‐γ production, respectively. FMDV challenge revealed that the DNA vaccine plus LMS provided higher protection than the DNA vaccine alone. This study demonstrates that LMS may be useful as an adjuvant for improving the protective efficiency of DNA vaccination against FMDV in pigs.     

Chenopodium necrosis: a distinctive strain of tobacco necrosis virus isolated from river water

A distinctive strain of tobacco necrosis virus (TNV) of unknown source was repeatedly isolated from water of the River Avon (Warwickshire) and two of its tributaries (R. Swift and R. Alne) using a technique developed for the concentration and isolation of water-borne bacteriophages. The same strain was isolated from the rivers Cam and Thames and from Lake Esthwaite (Cumbria) together with tomato bushy stunt virus. The TNV strain, designated Chenopodium necrosis (TNV-CN) was mechanically transmissible to C. amaranticolor and C. quinoa in both of which it caused local lesions and systemic infection. TNV-CN caused no infection when inoculated to tobacco (Nicotiana tabacum cv. White Burley) plants. The virus was not adsorbed to soil, could be isolated from leachate of soil in which systemically infected C. quinoa were grown and C. quinoa plants became infected when grown in soil watered with suspensions of the virus. The virus was not transmitted by Myzus persicae but was vectored by the zoospores of a lettuce isolate of Olpidium brassicae. TNV-CN was infective after 10 min at 85 °C., 3 wk at 20 °C and when diluted to 10^-8 but not 10^-9. Purified virus preparations contained c. 26 nm isometric virus particles. TNV-CN contained single-stranded RNA (mol. wt 1·5 × 10⁶) and one protein (mol. wt c. 26·4 × 10³) which co-electrophoresed in polyacrylamide gels with the protein of the D strain of TNV (TNV-D). Analytical centrifugation of TNV-CN indicated a single component virus with the same sedimentation coefficient (s₂₀, w= 115S) and buoyant density (1·385) in a CsCl gradient as those of TNV-D. TNV-CN and TNV-D were indistinguishable serologically.     

The relationship between the Andean strain of potato virus S and pepino latent virus

The titres obtained in microprecipitin tests with purified preparations of pepino latent virus (PepLV) and the Andean strain of potato virus S (PVS^A) using PepLV antiserum and two antisera to the ordinary strain of PVS (PVS°) indicated a close serological relationship between PepLV and PVS^A. Using antiserum to PVS°, both viruses were detected by ELISA when infective Chenopodium quinoa sap was diluted to 10^-5but not to 10^-6. Particles of both viruses were decorated equally well by antibodies to PVS^o, PVS^Aand PepLV in all virus-antiserum combinations. When PepLV was inoculated to C. quinoa, C. amaranticolor and potato plants, the symptoms induced closely resembled those of PVS^Ain these hosts. It is concluded that PepLV is an isolate of PVS^Afrom pepino.     

VP3 G–H环中氨基酸突变对O型口蹄疫病毒生物学特性的影响

【目的】为了研究O型口蹄疫病毒VP3G–H环中氨基酸突变对其生物学特性的影响。【方法】借助口蹄疫病毒反向遗传操作技术平台拯救出2株定点突变体rHN~(V3174Y)和rHN~(D3173N+V3174E+N3179C)。进行蚀斑形成试验、一步生长曲线的绘制、TCID_(50)和LD_(50)的测定、间接免疫荧光与激光共聚焦显微镜检测。【结果】结果显示,与骨架病毒rHN相比,虽然rHN~(V3174Y)和rHN~(D3173N+V3174E+N3179C)对BHK-21细胞的感染性及其蚀斑表型和复制动力学无显著性差异;但rHN~(V3174Y)和rHN~(D3173N+V3174E+N3179C)对乳鼠的致病力明显减弱,且均获得了小窝蛋白介导侵染CHO-K1细胞的能力。【结论】VP3上第3174位特征性氨基酸突变影响O型口蹄疫病毒感染宿主细胞的毒力及其内吞作用路径,这有助于我们认知VP3 G–H环在口蹄疫病毒粒子立体空间构象中潜在的作用。     

Immunogenicity of Two FMDV Nonameric Peptides Encapsulated in Liposomes in Mice and the Protective Efficacy in Guinea Pigs

It has been predicted that nonameric peptides I (VP1_26–34, RRQHTDVSF), II (VP1_157–165, RTLPTSFNY) and III (VP1_45–53, KEQVNVLDL) from the VP1 capsid protein of the foot-and-mouth disease virus (FMDV) are T cell epitopes. To investigate whether these peptides have immunological activity, BALB/c mice were immunized with peptide I, II or III conjugated with immunostimulating complexes (ISCOMs). A cytotoxic T lymphocyte assay was used to evaluate the cytotoxic activity induced by peptides along with by measuring peptide-specific T-cell proliferation and CD8⁺ T lymphocyte numbers in whole blood and interferon (IFN)-γ production in peripheral blood mononuclear cells induced by peptides. To further identify the protective efficacy of peptides, an FMDV challenge assay was done in guinea pigs. Peptides I and II stimulated significant increases in T-cell proliferation, CD8⁺ T lymphocytes, and IFN-γ secretion and cytotoxic activity compared to controls. The FMDV challenge assay indicated peptides I and II can protect over 60% of animals from virus attack. The results demonstrate that peptides I and II encapsulated in liposomes should be CTL epitopes of FMDV and can protect animals from virus attack to some extent.     

Enhanced enterovirus 71 virus‐like particle yield from a new baculovirus design

Enterovirus 71 (EV71) is responsible for the outbreaks of hand‐foot‐and‐mouth disease in the Asia‐Pacific region. To produce the virus‐like particle (VLP) vaccine, we previously constructed recombinant baculoviruses to co‐express EV71 P1 polypeptide and 3CD protease using the Bac‐to‐Bac^® vector system. The recombinant baculoviruses resulted in P1 cleavage by 3CD and subsequent VLP assembly in infected insect cells, but caused either low VLP yield or excessive VLP degradation. To tackle the problems, here we explored various expression cassette designs and flashBAC GOLD? vector system which was deficient in v‐cath and chiA genes. We found that the recombinant baculovirus constructed using the flashBAC GOLD? system was insufficient to improve the EV71 VLP yield. Nonetheless, BacF‐P1‐C3CD, a recombinant baculovirus constructed using the flashBAC GOLD^TM system to express P1 under the polh promoter and 3CD under the CMV promoter, dramatically improved the VLP yield while alleviating the VLP degradation. Infection of High Five^TM cells with BacF‐P1‐C3CD enhanced the total and extracellular VLP yield to ≈268 and ≈171 mg/L, respectively, which enabled the release of abundant VLP into the supernatant and simplified the downstream purification. Intramuscular immunization of mice with 5 μg purified VLP induced cross‐protective humoral responses and conferred protection against lethal virus challenge. Given the significantly improved extracellular VLP yield (≈171 mg/L) and the potent immunogenicity conferred by 5 μg VLP, one liter High Five^TM culture produced ≈12,000 doses of purified vaccine, thus rendering the EV71 VLP vaccine economically viable and able to compete with inactivated virus vaccines. Biotechnol. Bioeng. 2015;112: 2005–2015. © 2015 Wiley Periodicals, Inc.

     

A Novel Mucosal Vaccine Against Foot-and-Mouth Disease Virus Induces Protection in Mice and Swine

Epitopes of a foot-and-mouth disease virus (FMDV) capsid protein VP1 complex and a chimera of 6×His-tagged cholera toxin B subunit (hCTB) were expressed in Hansenula polymorpha and used together as a mucosal vaccine. Antibody and cytokine responses to VP1–hCTB vaccine and protection against FMDV were evaluated by ELISA and a virus challenge test in mice, respectively. VP1–hCTB directly enhanced the expression of interleukin-5 (IL-5) both in serum and supernatants of cultured spleen cells. After challenging suckling mice with 10⁵ FMDV (=50% lethal dosage per mouse) a greater protection was seen after intraperitoneal and intranasal vaccinations than after oral vaccination. In swine immunized with VP1–hCTB, immune responses were achieved after three administrations, and the vaccine protected swine (80%) when challenged with 10^6.5 FMDV (=50% infectious dosage per swine). These results demonstrated the possibility of using CTB as a mucosal adjuvant to elicit protective immune responses against FMDV. Houhui Song, Zhiliang Wang and Dongxia Zheng contributed equally to this work.     

Foot-and-mouth disease virus structural protein VP3 degrades Janus kinase 1 to inhibit IFN-γ signal transduction pathways

Foot-and-mouth disease is a highly contagious viral disease of cloven-hoofed animals that is caused by foot-and-mouth disease virus (FMDV). To replicate efficiently in vivo, FMDV has evolved methods to circumvent host antiviral defense mechanisms, including those induced by interferons (IFNs). Previous research has focused on the effect of FMDV L^pro and 3C^pro on type I IFNs. In this study, FMDV VP3 was found to inhibit type II IFN signaling pathways. The overexpression of FMDV VP3 inhibited the IFN-γ-triggered phosphorylation of STAT1 at Tyr701 and the subsequent expression of downstream genes. Mechanistically, FMDV VP3 interacted with JAK1/2 and inhibited the tyrosine phosphorylation, dimerization and nuclear accumulation of STAT1. FMDV VP3 also disrupted the assembly of the JAK1 complex and degraded JAK1 but not JAK2 via a lysosomal pathway. Taken together, the results reveal a novel mechanism used by which FMDV VP3 counteracts the type II IFN signaling pathways.     

Protective immune response to 16 kDa immunoreactive recombinant protein encoding the C-terminal VP1 portion of Foot and Mouth Disease Virus type Asia 1.

Recombinant protein of Foot and Mouth Disease Virus (FMDV) type Asia 1 corresponding to the C-terminal half of VP1 was expressed in Escherichia coli. As an alternative to the synthetic peptide, this selected C-terminal region was used as a protein vaccine in guinea pigs in order to study the immune response with various adjuvant formulations: immune stimulatory complexes (ISCOMs), Montanide ISA 206, Freund's incomplete adjuvant (FIA), lipopolysaccharide (LPS) and cytokine mixture. A primary dose of 40 microg/animal followed by a booster of the same dose was injected after a 21-day interval. The sera were collected at intervals of 21, 42 and 63 days after the booster. The humoral response to vaccine was monitored by sandwich enzyme-linked immunosorbent assay (ELISA) and a serum neutralization test (SNT). The guinea pig sera showed high titers both in ELISA and SNT, which could be protective. Further, irrespective of the adjuvant preparation used, the vaccine conferred protection against the challenge virus 105 days post-vaccination in 13 of 15 animals (86%). The results indicated that a combination of recombinant protein ISCOMs and Montanide ISA 206 would be a better choice for achieving early protective titers and longer lasting immunity and that the C-terminal half of the VP1 protein may be tried as a safe vaccine for secondary immunization.     

Induction of resistance in Phaseolus vulgaris L. cv. Lima against some soil-borne fungal pathogens by pre-inoculation with tobacco necrosis virus (TNV) reacting hypersensitivity

Abstract

Tobacco necrosis virus (TNV) was tested to induce systemic acquired resistance (SAR) in Phaseolus vulgaris cv. Lima against three important soil-borne fungal pathogens viz: Rhizoctonia solani, Macrophomina phaseolina and Fusarium oxysporum. Application of TNV as a local infection of seven-day old primary leaves of Phaseolus vulgaris cv. Lima resulted in reduction of the mean disease rating of root-rot and damping-off caused by the tested fungal pathogens. The pre-inoculated plants with TNV showed a significant enhancement in their content of photosynthetic pigments (chlorophyll a, b and carotenoids) compared to those inoculated with fungal pathogens only. The percentage of cell membrane stability and ion leakage of viral-treated plants were significantly increased confirming the healthy cytological status of the treated plants. Results demonstrated that inoculation of the primary leaves of beans with TNV before infection with the fungal pathogens leads to changes in protein patterns and showed differences compared with control and caused the appearance of at least one new protein band compared with only fungal-infected plants. Also, an increase in peroxidase activity emerged in the thickness of the isozymic pattern in addition to the synthesis of new bands which was observed as a result of TNV application before infection with the three fungal pathogens. Induction of the synthesis of a new protein and increasing peroxidase activity in the inoculated plants enhanced the defense system against the target pathogen. The results greatly supported the successful application of TNV in the induction of systemic acquired resistance in P. vulgaris cv. Lima against the fungal pathogens.     

转基因植物作为生物反应器生产口蹄疫疫苗的研究进展

利用转基因植物作为生物反应器表达重组蛋白,生产外源蛋白质作为动物疫苗是一个很有吸引力的廉价生产系统,它有可能代替生产成本较高的传统疫苗的发酵生产系统。通过口蹄疫病毒VP1结构蛋白基因在转基因植物中的表达,口蹄疫疫苗已在植物中产生。在植物中生产的抗原能够保持其自身的免疫原性。本文简要综述了近十年来用转基因植物作为生物反应器生产口蹄疫疫苗的研究进展、特点及其应用前景 。     

Sequence analysis of capsid coding region of foot-and-mouth disease virus type A vaccine strain during serial passages in BHK-21 adherent and suspension cells

Sequence variability within the capsid coding region of the foot-and-mouth disease virus type A vaccine strain during serial in vitro passage was investigated. Specifically, two methods of virus propagation were utilized, a monolayer and suspension culture of BHK-21 cells. At three positions (VP2₁₃₁ E-K in both monolayer and suspension passages, VP3₈₅ H-R in late monolayer passages and VP3₁₃₉ K-E in only suspension passages), all mapped to surface exposed loops, amino acid substitutions were apparently fixed without reversion till the end of the passage regime. Interestingly, VP2_{131, 121} and VP3₈₅ which form part of the heparan sulphate binding pocket, showed a tendency to acquire positively charged amino acids in either monolayer or suspension environment probably to better interact with the negatively charged cell surface glycosaminoglycans. At three identified antigenically critical positions (VP2₇₉, VP3₁₃₉ and VP1₁₅₄), amino acids substitutions even in the absence of immune pressure were noticed. Hence both random drift and adaptive mutations attributable to the strong selective pressure exerted by the proposed cell surface alternate receptors could play a role in modifying the capsid sequence of cell culture propagated FMDV vaccine virus, which in turn may alter the desired potency of the vaccine formulations.     

以EV71 3Cpro为靶标的抗病毒药物筛选模型的建立及抗3Cpro化合物筛选

建立一种以EV71 3C蛋白酶为靶标的抗肠病毒药物筛选模型,并应用于小分子化合物库筛选具有抗EV71活性的化合物.从临床手足口病例标本中分离肠道病毒进行PCR鉴定及基因组测序.通过插入突变在黄色荧光YFP编码框合适位点处引入EV71 3C酶切位点,构建对3C蛋白酶敏感的报告质粒pc DNA3-m YFP,然后将其与表达3C的质粒共转293A细胞,在3C抑制剂Rupintrivir存在与否的情况下通过荧光显微镜和酶标仪检测Ex(500nm)/Em(535nm)荧光信号的变化,判断建模是否成功;利用建好的筛选模型在高通量药物筛选平台对小分子化合物库进行初筛和复筛;再利用空斑分析检测筛选出的活性化合物是否对临床分离的EV71毒株具有抑制作用.m YFP在293A细胞中表达良好,3C的表达使荧光信号下降80%,Rupintrivir的存在则几乎不影响荧光表达,说明以3C为靶位的筛选模型构建成功.经过高通量初筛和复筛从26 000多种小分子化合物中获得26种能够显著回复m YFP表达的活性化合物;空斑分析显示其中2种化合物具有较为明显的抑制EV71复制的活性.因此,我们所构建的3C-m YFP共表达系统是一种简便有效的、可用于高通量筛选抗EV71 3C~(pro)药物的筛选模型.     

Molecular cloning of cDNA from foot-and-mouth disease virus C1-Santa Pau (C-S8). Sequence of protein-VP1-coding segment

cDNA segments copied from the RNA of foot-and-mouth disease virus (FMDV) C₁-Santa Pau (isolate C-S8) have been cloned in plasmid pBR322. A 998-bp DNA fragment, that includes the region coding for capsid protein VP1, the carboxy terminus of VP3, and the amino terminus of precursor protein p52 has been sequenced. Comparison of the nucleotide sequence with those from FMDV O₁K, A₁₀61, a₁₂ and C₃ Indaial (Kurz et al., Nucl. Acids Res. 9 (1981) 1919–1931; Kleid et al., Science 214 (1981) 1125–1129; Boothroyd et al., Gene 17 (1982) 153–161; Makoff et al., Nucl. Acids Res. 10 (1982) 8285–8295) indicates extensive variability between the corresponding gene segments, including short insertions and deletions. Base transversions are more frequent than transitions within the VP1 coding segment, but not in the sequence coding for the amino-terminal end of p52. The nucleotide sequence divergence is reflected in variability in both the primary and the predicted higher-order structures of the encoded VP1s.     

Interference Between Tobacco necrosis virus and Turnip crinkle virus in Nicotiana benthamiana

Mixed infections of Nicotiana benthamiana plants by Tobacco necrosis virus (TNV) and Turnip crinkle virus (TCV) exhibited an interference interaction. Accumulation of TNV (+)RNA as well as capsid protein in mixed infection were considerably lower than that of singly infected plants. There were also a slight reduction in the levels of TCV (+)RNA and capsid protein in doubly infected plants, which displayed the concentration of both viruses decreased in dually infected plants. Tissue immunoblot analysis of systemic N. benthamiana leaves infected by TNV and TCV singly or doubly showed the interference between the two viruses in situ, which exhibited the decrease of both viruses in doubly infected leaves although the distribution of them did not change remarkably. These results were consistent with the hybridization analysis of viral genomic RNA and coat protein. Both cross‐protection test and mixed infection of the two viruses confirmed TCV had relatively stronger interference to the infection of TNV. Interference infection by TNV and TCV induced higher increase in the levels of cytochrome pathway respiration and alternative pathway respiration in host plants, especially the latter. Interference often occurred in different strains of one kind of virus or two different closely related viruses in one genus. Our results showed that interference could also occur in different viruses belonging to different genera.     

Asia1型口蹄疫病毒受体结合位点多样性

【目的】口蹄疫病毒(Foot-and-Mouth Disease Virus,FMDV)通过结构蛋白VP1 G-H环上高度保守的精氨酸-甘氨酸-天门冬氨酸(Arg-Gly-Asp,RGD)基序与整联蛋白结合起始病毒的感染,但FMDV是RNA病毒,在环境条件变化时,FMDV能够以非RGD的途径起始病毒的感染。为了研究FMDV Asia1/JS/China/05田间舌皮毒经两种不同的途径短期传代后细胞受体结合基序RGD的变异。【方法】采用RT-PCR方法扩增FMDV Asia1/JS/China/05田间毒、田间毒的乳鼠适应毒第四代(MF4)和接种田间毒的牛同居感染的猪水泡病料适应细胞的第八代毒(PBF8)结构蛋白VP1基因,并对不同病毒VP1基因的PCR产物测序和cDNA文库测序。【结果】以含RGD受体结合基序为优势的田间毒在乳鼠上短期传代后出现了含精氨酸-丝氨酸-天门冬氨酸(Arg-Ser-Asp,RSD)和RGD受体结合基序的混合种群,而同居感染后的细胞传代病毒种群则以含精氨酸-天门冬氨酸-天门冬氨酸(Arg-Asp-Asp,RDD)受体结合基序为优势种群。【结论】发现了含RGD受体结合位点为优势的FMDV种群,经不同的宿主短期传代后产了含RSD或RDD受体结合基序的优势种群,该发现不仅增加了保守基序RGD发生替换的FMDV变异株的数量,而且为FMDV的细胞识别和宿主嗜性的改变等进一步研究奠定了物质基础。     

口蹄疫病毒三价复合多表位佐剂DNA疫苗构建及其免疫原性

以O型、A型口蹄疫病毒(FMDV)结构蛋白VP1全基因和AsiaI型FMDV两个基因拓扑型的结构蛋白VP1基因上的5个抗原表位基因作为主要免疫原基因,以来源于非结构蛋白3ABC和结构蛋白VP4上的3个Th2细胞表位基因作为辅助基因,构建了O型、A型和Asia1型FMDV复合多表位基因工程疫苗表达盒OAAT,在此基础上,以金黄色葡萄球菌肠毒素A(SEA)为基因佐剂,通过分子设计构建了SEA与OAAT融合表达基因。将构建好的表达盒OAAT与SEA融合表达基因克隆至真核表达载体PVAX1PCMV启动子下游,构建了口蹄疫三价基因佐剂DNA疫苗pEA。经Western blotting和IFA检测,目的蛋白在Hela细胞中获得正确表达。小鼠免疫实验表明,pA和pEA免疫组的血清抗体均能分别与O型、A型和AsiaI抗原反应,与对照组相比差异较显著,且pEA免疫组和灭活疫苗免疫组抗体水平均显著高于pA免疫组;同时pA和pEA免疫小鼠细胞因子IL-2、IFN-γ、IL-4和IL-10较对照组显著提高,且pEA免疫组的IL-2、IFN-γ和IL-4水平明显高于pA免疫组。用O/NY00和Asia1/YNBS/58株FMDV进行...