应用跨膜区置换的血凝素蛋白建立H7N9禽流感病毒抗体间接ELISA检测方法

【目的】由于H7N9禽流感病毒能够感染鸡,并且已经变异成了高致病性毒株,因此,鸡群中H7N9禽流感疫苗的免疫是一个趋势,而鸡群免疫后抗体检测方法的建立也十分必要。本研究旨在建立一种灵敏、高效、高通量的鸡群H7N9亚型禽流感病毒抗体间接酶联免疫吸附试验(ELISA)检测方法。【方法】通过昆虫杆状病毒表达系统分别表达属于W1、W2-A和W2-B分支H7N9流感病毒的3种野生型血凝素(HA)蛋白,以及跨膜区(TM)置换为H3 HA TM的W2-B分支HA蛋白(H7-53TM)。4种HA蛋白经过离子交换层析纯化后作为抗原,通过ELISA检测H7N9禽流感病毒抗体。【结果】ELISA特异性、敏感性和重复性试验结果显示,跨膜区置换主要影响HA蛋白ELISA检测的重复性,以H7-53TM为抗原的ELISA方法具有较好的重复性,其批内和批间变异系数小于10%,然而3种野生型HA蛋白与部分血清反应批内和批间变异系数大于10%,重复性较差,因此选择H7-53TM蛋白作为ELISA包被抗原。通过受试者工作特征曲线(ROC曲线)分析,以H7-53TM为抗原的ELISA能够精准地区分H7N9亚型流感病毒抗体阳性和阴性血清。通过相关性分析,该ELISA方法与134份鸡血清HI试验结果具有显著强相关性(r=0.854 6,P0.000 1),并且与3个分支疫苗株免疫血清的HI试验结果也具有显著相关性(r0.5,P0.05)。【结论】跨膜区置换能够提高HA蛋白抗原检测H7N9禽流感病毒抗体的重复性,并应用跨膜区置换的HA蛋白建立了一种能够检测不同分支疫苗株免疫的H7N9亚型禽流感病毒抗体间接ELISA检测方法。     

Application of recombinant hemagglutinin proteins as alternative antigen standards for pandemic influenza vaccines

Objectives

The single radial immunodiffusion (SRID) assay, used to quantify hemagglutinin (HA) in influenza vaccines, requires reference reagents; however, because centralized production of reference reagents may slow the emergency deployment of vaccines, alternatives are needed.

Results

We investigated the production of HA proteins using recombinant DNA technology, rather than a traditional egg-based production process. The HA proteins were then used in an SRID assay as a reference antigen. We found that HA can be quantified in both egg-based and cell-based influenza vaccines when recombinant HAs (rHAs) are used as the reference antigen. Furthermore, we confirmed that rHAs obtained from strains with pandemic potential, such as H5N1, H7N3, H7N9, and H9N2 strains, can be utilized in the SRID assay. The rHA production process takes just one month, in contrast to the traditional process that takes three to four months.

Conclusions

The use of rHAs may reduce the time required to produce reference reagents and facilitate timely introduction of vaccines during emergencies.

     

Application of deglycosylation and electrophoresis to the quantification of influenza viral hemagglutinins facilitating the production of 2009 pandemic influenza (H1N1) vaccines at multiple manufacturing sites in China

The single radial immunodiffusion (SRID) method currently used to determine the hemagglutinin (HA) content of the inactivated influenza vaccines depends on the availability of reference HA antigen and corresponding anti-serum, updated and provided annually by World Health Organization (WHO) collaborative centers. Particularly early in a pandemic outbreak, reference reagents could be the bottleneck in vaccine development and release. Therefore, other reliable tests capable of quantifying HA content could substantially shorten the time needed for vaccine formulation. Here electrophoretic separation of deglycosylated samples in conjunction with densitometry was used to quantify HA contents of H1N1 vaccine at multiple manufacturing sites. We found the overall consistency between the alternative method and traditional SRID was 88–122% in seven lots of vaccine bulks from four subtypes (types) of influenza vaccine, confirming its suitability to quantify HA content. Moreover, we used the alternative method to prepare a national HA antigen reference in China for quality control of 2009 pandemic influenza A (H1N1) vaccines prior to the arrival of the WHO SRID reference standards, subsequently confirming good agreement between both methods. The alternative method for vaccine quantification enabled the Chinese health authority to approve H1N1 vaccine 1 month earlier than otherwise possible.     

Multi-Dimensional Measurement of Antibody-Mediated Heterosubtypic Immunity to Influenza

The human immune response to influenza vaccination depends in part on preexisting cross-reactive (heterosubtypic) immunity from previous infection by, and/or vaccination with, influenza strains that share antigenic determinants with the vaccine strains. However, current methods for assessing heterosubtypic antibody responses against influenza, including the hemagglutination-inhibition (HAI) assay and ELISA, are time and labor intensive, and require moderate amounts of serum and reagents. To address these issues we have developed a fluorescent multiplex assay, mPlex-Flu, that rapidly and simultaneously measures strain specific IgG, IgA, and IgM antibodies against influenza hemagglutinin (HA) from multiple viral strains. We cloned, expressed and purified HA proteins from 12 influenza strains, and coupled them to multiplex beads. Assay validation showed that minimal sample volumes (<5 μl of serum) were needed, and the assay had a linear response over a four Log₁₀ range. The assay detected nanogram levels of anti-influenza specific antibodies, had high accuracy and reproducibility, with an average percentage coefficient of variation (%CV) of 9.06 for intra-assay and 12.94 for inter-assay variability. Pre- and post-intramuscular trivalent influenza vaccination levels of virus specific Ig were consistent with HAI titer and ELISA measurements. A significant advantage of the mPLEX-Flu assay over the HAI assay is the ability to perform antigenic cartography, determining the antigenic distances between influenza HA’s, without mathematical correction for HAI data issues. For validation we performed antigenic cartography on 14 different post-influenza infection ferret sera assayed against 12 different influenza HA’s. Results were in good agreement with a phylogenetic tree generated from hierarchical clustering of the genomic HA sequences. This is the first report of the use of a multiplex method for antigenic cartography using ferret sera. Overall, the mPlex-Flu assay provides a powerful tool to rapidly assess the influenza antibody repertoire in large populations and to study heterosubtypic immunity induced by influenza vaccination.     

单向放射免疫扩散法测定流感灭活疫苗血凝素含量的研究

为改进流感灭活疫苗血凝素含量的测定方法 ,将待测样品经去污剂处理后 ,用WHO标准品作对照进行免疫扩散测定 10个流感灭活疫苗样品血凝素含量。在血凝效价相同的情况下 ,疫苗中三价 (A1,A3,B)血凝素含量存在不同程度的差异。可见 ,单向放射免疫扩散法较血球凝集法更适用于流感灭活疫苗血凝素含量的测定。     

H1亚型猪流感病毒抗体间接ELISA检测方法的建立及其应用

为建立H1亚型猪流感病毒抗体检测方法,扩增了H1N1亚型猪流感病毒流行株的血凝素基因HA1部分,构建原核表达载体pET30a-HA1,并转化大肠杆菌BL21表达重组蛋白。对重组蛋白包涵体进行变性、复性和Ni-NTA亲和层析纯化。以纯化后的蛋白作包被抗原,建立间接ELISA检测方法。利用该检测方法检测了2008?2009年采集的猪血清785份,阳性率为15.54％,不同省份的阳性率存在差异 (8％~47％)。以IDEXX相关试剂盒检测结果作为参照,该方法的诊断特异性达到91％,诊断敏感性达到95％。     

流感疫苗单向免疫扩散试验中抗血清制备新方法的研究

流感疫苗血凝素含量检测方法为单向免疫扩散试验,其抗血清通常由WHO参比实验室提供,通过纯化病毒、蛋白酶切获得血凝素主要抗原片段,然后再免疫动物获得抗血清。该方法制备时间较长,是制约流感疫苗研发及检测的主要因素。以RT-PCR方法获取甲型H1N1流感病毒血凝素中主要抗原片段基因,构建重组质粒并在大肠杆菌中表达,表达产物经纯化、复性后,以蛋白电泳及免疫印迹方法进行了鉴定。以纯化蛋白免疫家兔,制备了相应的抗体,初步证明可用于常规的单向免疫扩散试验。以该法可以快速获得抗血清,尤其是在大流行流感疫苗的研发中,加快疫苗研发进程。     

Design,synthesis and biological evaluation of amino acids-oleanolic acid conjugates as influenza virus inhibitors

Viral entry inhibitors are of great importance in current efforts to develop a new generation of anti-influenza drugs. Inspired by the discovery of a series of pentacyclic triterpene derivatives as entry inhibitors targeting the HA protein of influenza virus, we designed and synthesized 32 oleanolic acid (OA) analogues in this study by conjugating different amino acids to the 28-COOH of OA. The antiviral activity of these compounds was evaluated in vitro. Some of these compounds revealed impressive anti-influenza potencies against influenza A/WSN/33 (H1N1) virus. Among them, compound 15a exhibited robust potency and broad antiviral spectrum with IC₅₀ values at the low-micromolar level against four different influenza strains. Hemagglutination inhibition (HI) assay and docking experiment indicated that these OA analogues may act in the same way as their parent compound by interrupting the interaction between HA protein of influenza virus and the host cell sialic acid receptor via binding to HA, thus blocking viral entry.     

The quantification of the haemagglutinin content of influenza whole virus and Tween-ether split vaccines

Monovalent whole virus and Tween-ether split vaccines prepared from influenza A/Bangkok, A/Brazil and B/Singapore were assayed for haemagglutinin content using single radial immunodiffusion (SRID), quantitative sodium dodecyl sulphate-polyacrylamide gel electrophoresis (SDS-PAGE) and immunization of guinea pigs. When SRID was performed with split vaccines, haemagglutinin values were consistently recorded which were in the range of 50 to 25% of the values obtained before disruption of virions. When, however, disruption was conducted in the presence of excess detergent, thus preventing aggregate formation of solubilized haemagglutinin, test values comparable with those of whole virus vaccines were obtained. In agreement with these results, immunization experiments revealed that whole virus and corresponding split vaccines exhibited comparable immunogenicity in guinea pigs. Additionally it could be calculated from SDS-PAGE and densitometer tracings, obtained by scanning the gels after staining with either Coomassie blue or FITC-Con A, that 90 to 95% of whole virus HA2 was recovered in Tween-ether split vaccines. On the basis of these findings we conclude that precise quantification of Tween-ether split vaccines is not possible by the SRID test alone. As aggregate formation of solubilized haemagglutinin occurs, we suggest that either a physico-chemical method including a disaggregation procedure, such as SDS treatment, or immunological evaluation of the original whole virus preparation before disruption of virions should be applied as an additional criterion for quantification of influenza Tween-ether split vaccines.     

A Novel Synthetic Receptor-Based Immunoassay for Influenza Vaccine Quantification

Vaccination is the most effective prophylactic method for preventing influenza. Quantification of influenza vaccine antigens is critically important before the vaccine is used for human immunization. Currently the vaccine antigen quantification relies on hemagglutinin content quantification, the key antigenic component, by single radial immunodiffusion (SRID) assay. Due to the inherent disadvantages associated with the traditional SRID; i.e. low sensitivity, low throughput and need for annual reagents, several approaches have been proposed and investigated as alternatives. Yet, most alternative methods cannot distinguish native hemagglutinin from denatured form, making them less relevant to antigenic analyses. Here, we developed a quantitative immunoassay based on the sialic acid binding property of influenza vaccine antigens. Specifically, we chemically synthesized human and avian influenza virus receptors analogues, N-acetylneuraminic acid-2,6-lactose and N-acetylneuraminic acid-2,3-lactose derivatives with an azidopropyl aglycon, using α-2,6- and α-2,3-sialyltransferases, respectively. The azido group of the two sialyllactose-derivatives was reduced and conjugated to mouse serum albumin through a squarate linkage. We showed that the synthetic α-2,6- and α-2,3-receptors selectively bound to human and avian-derived hemagglutinins, respectively, forming the basis of a new, and robust assay for hemagglutinin quantification. Hemagglutinin treated at high temperature or low pH was measured differentially to untreated samples suggesting native conformation is dependent for optimal binding. Importantly, this receptor-based immunoassay showed excellent specificity and reproducibility, high precision, less turnaround time and significantly higher sensitivity and throughput compared with SRID in analyzing multiple influenza vaccines.     

Standard Trivalent Influenza Virus Protein Vaccination Does Not Prime Antibody-Dependent Cellular Cytotoxicity in Macaques

Yearly vaccination with the trivalent inactivated influenza vaccine (TIV) is recommended, since current vaccines induce little cross neutralization to divergent influenza strains. Whether the TIV can induce antibody-dependent cellular cytotoxicity (ADCC) responses that can cross-recognize divergent influenza virus strains is unknown. We immunized 6 influenza-naive pigtail macaques twice with the 2011–2012 season TIV and then challenged the macaques, along with 12 control macaques, serially with H1N1 and H3N2 viruses. We measured ADCC responses in plasma to a panel of H1 and H3 hemagglutinin (HA) proteins and influenza virus-specific CD8 T cell (CTL) responses using a sensitive major histocompatibility complex (MHC) tetramer reagent. The TIV was weakly immunogenic and, although binding antibodies were detected by enzyme-linked immunosorbent assay (ELISA), did not induce detectable influenza virus-specific ADCC or CTL responses. The H1N1 challenge elicited robust ADCC to both homologous and heterologous H1 HA proteins, but not influenza virus HA proteins from different subtypes (H2 to H7). There was no anamnestic influenza virus-specific ADCC or CTL response in vaccinated animals. The subsequent H3N2 challenge did not induce or boost ADCC either to H1 HA proteins or to divergent H3 proteins but did boost CTL responses. ADCC or CTL responses were not induced by TIV vaccination in influenza-naive macaques. There was a marked difference in the ability of infection compared to that of vaccination to induce cross-reactive ADCC and CTL responses. Improved vaccination strategies are needed to induce broad-based ADCC immunity to influenza.     

H1亚型猪流感病毒HA基因DNA疫苗的构建及其对Balb/c小鼠的免疫效果评价

以A/Swine/Guangdong/LM/2004(H1N1)猪流感病毒HA基因为模板,通过RT-PCR技术扩增出HA基因,并将其克隆到pCI-neo真核表达载体中,成功构建重组表达质粒pCI-HA,瞬时转染vero E6和293T细胞,通过免疫过氧化物酶单层细胞试验(Immunoperoxidase monolayer assay ,IPMA)、间接免疫荧光试验(indirect immunofluorescence assay, iIFA)和蛋白免疫印迹（Western blot,WB）实验证明,HA基因能够在哺乳动物细胞中有效表达并具有良好的生物学活性。将重组质粒三次免疫8w雌性Balb/c小鼠后,ELISA试验和中和试验结果表明该重组质粒能够诱导小鼠产生较高的抗体滴度,并具有良好的中和活性。因此为H1亚型猪流感DNA疫苗的研究奠定了理论基础。     

Development and validation of an egg-based potency assay for a trivalent live attenuated influenza vaccine

Live attenuated influenza vaccines (LAIVs) targeting seasonal influenza are produced in embryonated eggs and formulated as a trivalent preparation of three live attenuated vaccine strains, one A(H1N1) strain, one A(H3N2) strain and one type B strain. In this study, we describe an egg-based potency assay for estimating the 50% Egg infectious dose (EID50) of individual strains in the trivalent preparation by selective neutralisation of two strains and then estimating the infective titres of the non-neutralised strain. The test is highly specific, and no cross interference of heterologous antisera is observed in the estimation of individual titres. Individual strains with titres in the range of 6.5-7.0 log EID50 per 0.5 ml show intra-assay and inter-assay coefficients of variance ranging from 1.25% to 2.95%. This assay was developed to establish a simple, reliable and inexpensive egg-based assay for estimating the potency of individual strains in a trivalent preparation.     

New Small Molecule Entry Inhibitors Targeting Hemagglutinin-Mediated Influenza A Virus Fusion

Influenza viruses are a major public health threat worldwide, and options for antiviral therapy are limited by the emergence of drug-resistant virus strains. The influenza virus glycoprotein hemagglutinin (HA) plays critical roles in the early stage of virus infection, including receptor binding and membrane fusion, making it a potential target for the development of anti-influenza drugs. Using pseudotype virus-based high-throughput screens, we have identified several new small molecules capable of inhibiting influenza virus entry. We prioritized two novel inhibitors, MBX2329 and MBX2546, with aminoalkyl phenol ether and sulfonamide scaffolds, respectively, that specifically inhibit HA-mediated viral entry. The two compounds (i) are potent (50% inhibitory concentration [IC₅₀] of 0.3 to 5.9 μM); (ii) are selective (50% cytotoxicity concentration [CC₅₀] of >100 μM), with selectivity index (SI) values of >20 to 200 for different influenza virus strains; (iii) inhibit a wide spectrum of influenza A viruses, which includes the 2009 pandemic influenza virus A/H1N1/2009, highly pathogenic avian influenza (HPAI) virus A/H5N1, and oseltamivir-resistant A/H1N1 strains; (iv) exhibit large volumes of synergy with oseltamivir (36 and 331 μM² % at 95% confidence); and (v) have chemically tractable structures. Mechanism-of-action studies suggest that both MBX2329 and MBX2546 bind to HA in a nonoverlapping manner. Additional results from HA-mediated hemolysis of chicken red blood cells (cRBCs), competition assays with monoclonal antibody (MAb) C179, and mutational analysis suggest that the compounds bind in the stem region of the HA trimer and inhibit HA-mediated fusion. Therefore, MBX2329 and MBX2546 represent new starting points for chemical optimization and have the potential to provide valuable future therapeutic options and research tools to study the HA-mediated entry process.     

Single Hemagglutinin Mutations That Alter both Antigenicity and Receptor Binding Avidity Influence Influenza Virus Antigenic Clustering

The hemagglutination inhibition (HAI) assay is the primary measurement used for identifying antigenically novel influenza virus strains. HAI assays measure the amount of reference sera required to prevent virus binding to red blood cells. Receptor binding avidities of viral strains are not usually taken into account when interpreting these assays. Here, we created antigenic maps of human H3N2 viruses that computationally account for variation in viral receptor binding avidities. These new antigenic maps differ qualitatively from conventional antigenic maps based on HAI measurements alone. We experimentally focused on an antigenic cluster associated with a single N145K hemagglutinin (HA) substitution that occurred between 1992 and 1995. Reverse-genetics experiments demonstrated that the N145K HA mutation increases viral receptor binding avidity. Enzyme-linked immunosorbent assays (ELISA) revealed that the N145K HA mutation does not prevent antibody binding; rather, viruses possessing this mutation escape antisera in HAI assays simply by attaching to cells more efficiently. Unexpectedly, we found an asymmetric antigenic effect of the N145K HA mutation. Once H3N2 viruses acquired K145, an epitope involving amino acid 145 became antigenically dominant. Antisera raised against an H3N2 strain possessing K145 had reduced reactivity to H3N2 strains possessing N145. Thus, individual mutations in HA can influence antigenic groupings of strains by altering receptor binding avidity and by changing the dominance of antibody responses. Our results indicate that it will be important to account for variation in viral receptor binding avidity when performing antigenic analyses in order to identify genuine antigenic differences among influenza virus variants.     

Application of deglycosylation to SDS PAGE analysis improves calibration of influenza antigen standards

Each year the production of seasonal influenza vaccines requires antigen standards to be available for the potency assessment of vaccine batches. These are calibrated and assigned a value for haemagglutinin (HA) content. The calibration of an antigen standard is carried out in a collaborative study amongst a small number of national regulatory laboratories which are designated by WHO as Essential Regulatory Laboratories (ERLs) for the purposes of influenza vaccine standardisation. The calibration involves two steps; first the determination of HA protein in a primary liquid standard by measurement of total protein in a purified influenza virus preparation followed by determination of the proportion of HA as determined by PAGE analysis of the sample; and second, the calibration of the freeze-dried reference antigen against the primary standard by single radial immunodiffusion (SRD) assay. Here we describe a collaborative study to assess the effect of adding a deglycosylation step prior to the SDS-PAGE analysis for the assessment of relative HA content. We found that while the final agreed HA value of the samples tested was not significantly different with or without deglycosylation, the deglycosylation step greatly improved between-laboratory agreement.     

广州2006年乙型流感病毒血凝素和神经氨酸酶基因特性分析

为了解2006年广州地区流行的乙型流感病毒株血凝素(HA)和神经氨酸酶(NA)的基因特性,选择病原学监测病毒株和暴发性疫情病毒株,提取病毒RNA并逆转录为cDNA,通过PCR方法扩增乙型流感病毒HA和NA全长基因,将扩增的DNA片段接入T-A克隆载体进行测序,并使用DNAStar软件对测序结果进行分析。结果显示:不同来源的流感病毒株HA的同源性为99%以上,都属于Victoria系;不同来源的病毒株NA同源性为98%以上。HA和NA的种系发生树分析表明:病原学监测毒株同源性更接近,而暴发性疫情毒株的同源性则相对较为分散。所有毒株与WHO推荐的2005~2006年度疫苗株B/Shanghai/361/2002的同源性只有88.9%~89.7%,说明该年度的流感疫苗对乙型流感不能提供最佳的保护。     

In vivo biotinylated recombinant influenza A virus hemagglutinin for use in subtype-specific serodiagnostic assays

There is an urgent need for robust subtype-specific serological tests to diagnose influenza A virus infections in poultry and mammals, including humans. Such assays require reliable subtype-specific sources of soluble and authentically folded seroreactive hemagglutinin (HA), one of the integral membrane proteins that determine the serological subtype of influenza viruses. To this purpose, a bigenic pFastBacDual baculovirus transfer vector allowing efficient in vivo biotinylation of soluble HA homo-oligomers expressed via the secretory pathway was developed. An Avi-Tag allowed site-specific biotinylation by a coexpressed genetically modified BirA biotin ligase retained in the endoplasmic reticulum (ER). Highly seroreactive mono-biotinylated HA of recent H5 and H7 influenza A subtypes was secreted from recombinant baculovirus infected High-Five insect cells at levels sufficient to directly load streptavidin-coated enzyme-linked immunosorbent assay (ELISA) matrices, thereby avoiding any purification steps. The recombinant antigens retained authentic antigenicity, including conformation-dependent epitopes involved in hemagglutination inhibition as detected by monoclonal antibodies. This is the first bigenic in vivo biotinylation system established for use in insect cells with secretable recombinant membrane proteins biotinylated by an ER-retained variant of BirA biotin ligase. The proposed technique is expected to significantly increase flexibility in the design of subtype-specific assays, thereby expanding the power of influenza A virus serodiagnosis.     

用~(125)I标记肽图估计近年来流行的甲型流感病毒血凝素的变异率

将一种灵敏而简便的~(125)Ⅰ标记肽图分析方法用于估计近年来流行的5株甲1型和S株甲3型流感病毒血凝素(HA)的变异率。经计算这两种亚型病毒HA的年平均氨基酸变异率分别为0.47％和0.44％。但在1986年分离株与1985年分离株之间则有较大的变化,对HA的变异率与流行病学资料的关系进行了讨论。     

H5N1-SeroDetect EIA and rapid test: a novel differential diagnostic assay for serodiagnosis of H5N1 infections and surveillance

Continuing evolution of highly pathogenic (HP) H5N1 influenza viruses in wild birds with transmission to domestic poultry and humans poses a pandemic threat. There is an urgent need for a simple and rapid serological diagnostic assay which can differentiate between antibodies to seasonal and H5N1 strains and that could provide surveillance tools not dependent on virus isolation and nucleic acid technologies. Here we describe the establishment of H5N1 SeroDetect enzyme-linked immunosorbent assay (ELISA) and rapid test assays based on three peptides in HA2 (488-516), PB1-F2 (2-75), and M2e (2-24) that are highly conserved within H5N1 strains. These peptides were identified by antibody repertoire analyses of H5N1 influenza survivors in Vietnam using whole-genome-fragment phage display libraries (GFPDLs). To date, both platforms have demonstrated high levels of sensitivity and specificity in detecting H5N1 infections (clade 1 and clade 2.3.4) in Vietnamese patients as early as 7 days and up to several years postinfection. H5N1 virus-uninfected individuals in Vietnam and the United States, including subjects vaccinated with seasonal influenza vaccines or with confirmed seasonal virus infections, did not react in the H5N1-SeroDetect assays. Moreover, sera from individuals vaccinated with H5N1 subunit vaccine with moderate anti-H5N1 neutralizing antibody titers did not react positively in the H5N1-SeroDetect ELISA or rapid test assays. The simple H5N1-SeroDetect ELISA and rapid tests could provide an important tool for large-scale surveillance for potential exposure to HP H5N1 strains in both humans and birds.