H7N9禽流感病毒裂解佐剂(MF59)疫苗稳定性研究

目的评价H7N9禽流感病毒裂解佐剂(MF59)疫苗的稳定性。方法采用国内自主构建的重组H7N9禽流感病毒疫苗株毒种制备单价疫苗原液,制备含MF59佐剂的成品疫苗。按照企业注册质量标准进行检定,分别放置于(37±2)℃、(25±2)℃和(5±3)℃环境下,观察不同时间疫苗的稳定性。结果经检定,成品疫苗的外观、装量、无菌检查、异常毒性检测、细菌内毒素含量、渗透压质量摩尔浓度及其他检定项目均符合企业注册质量标准。H7N9禽流感病毒裂解佐剂(MF59)疫苗在(37±2)℃保存3 d、在(25±2)℃保存3个月、在(5±3)℃保存30个月,疫苗各项指标均符合企业注册质量标准。结论 H7N9禽流感病毒裂解佐剂(MF59)疫苗具有良好的稳定性。     

H7N9灭活疫苗联合MF59佐剂在小鼠体内诱导的长效体液免疫应答

以BALB/c小鼠为模型,探讨H7N9流感病毒灭活疫苗免疫小鼠后所诱导的长效体液免疫应答的动态变化。不同剂量的流感H7N9全病毒灭活疫苗单独或辅以MF59佐剂肌肉注射免疫小鼠一次。连续采集免疫后小鼠15个月的血清,用ELISA方法检测特异性IgG抗体水平,血凝抑制(hemagglutination inhibition,HI)试验和微量中和(microneutralization,MN)试验检测第15个月时的HI抗体和中和抗体效价。实验结果发现,小鼠血清中的特异性IgG抗体水平随时间变化持续缓慢上升,第5个月时达到顶峰,随后略有下降但一直持续平稳状态;IgG抗体滴度与疫苗剂量成正相关,且添加佐剂能提高抗体滴度。HI及MN抗体检测表明,免疫后第15个月产生的抗体能有效中和病毒,且抗体跟疫苗剂量成正比。以上研究表明,H7N9流感病毒灭活疫苗免疫小鼠一次诱导产生的特异性抗体能在较长期内保持比较平稳的抗体滴度,为小鼠提供免疫保护;增加抗原剂量和添加MF59佐剂能增加疫苗特异性抗体水平。该研究为H7N9流感疫苗产生的长期保护效应提供了一定的数据积累和参考。     

H7N9禽流感病毒裂解佐剂(MF59)疫苗的长期免疫原性研究

目的 评价H7N9禽流感病毒裂解佐剂(MF59)疫苗的长期免疫原性。方法 制备含MF59佐剂的H7N9禽流感病毒裂解疫苗成品,放置于(6±2)℃环境下,取保存6、24和30个月后的疫苗,对小鼠进行免疫,以血凝抑制效价和微量中和抗体滴度来评估该疫苗的免疫原性。同时,用存放30个月的疫苗进行2次免疫后,对小鼠进行攻毒,观察MF59佐剂疫苗的免疫保护效应。结果 H7N9禽流感病毒裂解佐剂(MF59)疫苗在(6±2)℃保存30个月后免疫小鼠,检测其血凝抑制抗体效价和微量中和抗体滴度均没有明显的变化,且免疫小鼠能够有效抵御H7N9病毒的感染及其致病效应。结论 H7N9禽流感病毒裂解佐剂(MF59)疫苗具有良好的免疫原性,在(6±2)℃至少可保存30个月。     

季节性流感疫苗对小鼠感染 H7N9 禽流感病毒的保护效力简

目的 评价季节性流感裂解疫苗对流感病毒H7N9的免疫保护效力.方法 用我国2012～2013年度季节性流感裂解疫苗,以腹腔注射方式免疫BALB/c小鼠,并设PBS免疫模型组,末次免疫14 d后以5 LD50 A/Anhui/1（H7N9）进行攻试验.感染后观察记录小鼠临床表现,体重变化,并分别于第2天和第4天每组处死3只小鼠,取肺组织和鼻甲骨测病毒滴度和载量.结果 感染后疫苗与模型组小鼠体重下降明显,疫苗组存活率为10%,模型组全部死亡.感染后第4天疫苗组鼻甲骨滴度显著低于模型组.血凝抑制试验及中和实验表明免疫小鼠血清无中和H7N9病毒抗体.结论 季节性流感疫苗在小鼠中对于H7N9流感病毒感染无明显保护作用.     

人用H7N9疫苗的研究进展

2013年3月,在中国首次出现低致病性H7N9病毒感染者并致死的病例。迄今为止,中国共出现5次H7N9病毒流行的疫情。其间,H7N9病毒不断发生变异,新的基因型以及高致病性H7N9病毒相继出现。变异的H7N9病毒对禽类养殖业和人类的公共卫生造成了严重的威胁,疫苗是预防H7N9病毒流行的有效措施。目前,全世界尚无临床可用的人用H7N9疫苗,但各类备选H7N9疫苗都在研究中,如灭活疫苗、减毒疫苗、亚单位疫苗、病毒样颗粒疫苗、核酸疫苗和病毒载体疫苗等。其中,一些H7N9疫苗已进入临床研究阶段。现对各类人用H7N9疫苗的研究进展作一概述。     

甲型H1N1流感病毒佐剂疫苗小鼠免疫效果

为了探讨甲型H1N1流感病毒氢氧化铝佐剂疫苗对小鼠的免疫作用及对小鼠繁殖性能的影响,以不同剂量、不同免疫程序免疫小鼠后定期采血;用血凝抑制(HI)方法检测血清H1N1流感病毒HI抗体滴度,观察H1N1流感病毒佐剂疫苗对小鼠受孕、产仔、哺乳的影响;比较孕鼠及非孕鼠的抗体滴度,免疫后孕鼠所产仔鼠的体重及H1N1胎传抗体水平。结果显示,以0.5μg组开始的不同剂量、不同免疫程序均可使小鼠产生90倍以上水平的H1N1流感病毒抗体;免疫后的小鼠不影响受孕、产仔及哺乳;仔鼠保护性抗体可持续1个月以上。H1N1流感病毒佐剂疫苗是一种高免疫原性的制剂,用低剂量免疫,即可产生90倍以上持续时间较长的保护性抗体。这种佐剂疫苗对小鼠的繁殖性能无明显影响,免疫产生的抗体经胎盘可垂直传递给仔鼠。     

人H7N9禽流感病毒与H1N1流感病毒感染小鼠病理学损伤的比较

目的比较分析H7N9病毒与H1N1病毒感染小鼠病理学损伤特点,初步探讨两种病毒感染致小鼠急性肺损伤的致病机制。方法 H7N9病毒与H1N1病毒分别感染小鼠,观察不同病毒感染后小鼠生存率,并于不同时间点取心、肝、脾、肺、肾、脑、肠等组织,伊红-苏木素染色并进行组织病理学分析,免疫组化检测病毒抗原分布及中性粒细胞浸润。综合分析肺组织病理损伤与病毒复制、宿主免疫反应之间的关系。结果 H7N9病毒感染小鼠肺及脾脏损伤较轻,存活率较高。H1N1病毒感染的小鼠肺及脾脏损伤较重,感染后9 d全部死亡;两种病毒抗原主要分布于支气管上皮细胞、少量间质细胞和肺泡上皮细胞,病毒复制水平无明显差异。但H1N1病毒感染后肺及脾脏中均有大量中性粒细胞浸润,小鼠机体炎症反应明显强于H7N9病毒感染后小鼠炎症反应。结论 H7N9病毒与H1N1病毒感染后小鼠病理学损伤特点及程度均不同,病毒复制是小鼠肺损伤的诱发因素但并非决定因素,宿主针对病毒感染产生的免疫反应程度与急性肺损伤密切相关。     

一例混合感染中H3N2和H7N9流感病毒的分子遗传特性

【目的】揭示一例混合感染中H3N2和N7N9流感病毒的分子遗传特性。【方法】通过荧光定量PCR法对标本进行流感病毒分型检测。通过二代测序技术对病毒分离物进行全基因组测序分析。【结果】2013年4月在南京市检测到一例人季节性H3N2流感病毒和禽流感H7N9病毒混合感染,混合病毒分别命名为A/Nanjing/M1/2013 (H3N2) (M1-H3N2)和A/Nanjing/M2/2013 (H7N9) (M2-H7N9)。分离株M2-H7N9 HA蛋白的Q226L位点和PB2蛋白E627K位点发生突变,增强了病毒对人体的感染能力。【结论】报道了一起人混合感染H3N2和N7N9流感病毒病例,提示人可能成为流感病毒基因“混合器”,应高度关注H7N9病毒与人季节性流感病毒的基因重配现象。     

甲型H7N9流感疫苗的临床研究进展

2016年10月以来,我国感染甲型H7N9流感病例数量急剧增加,截至日前,内地已新增460例病例,已死亡78例,引起了国内外的密切关注。H7N9病毒一旦获得持续人传人的能力,将造成流感的大流行。因此,研发安全有效的H7N9流感疫苗具有重要意义。本文就国内外目前处于临床试验阶段以及已有临床试验结果的H7N9流感疫苗做一综述。     

Conservation of T cell epitopes between seasonal influenza viruses and the novel influenza A H7N9 virus

A novel avian influenza A (H7N9) virus recently emerged in the Yangtze River delta and caused diseases, often severe, in over 130 people. This H7N9 virus appeared to infect humans with greater ease than previous avian influenza virus subtypes such as H5N1 and H9N2. While there are other potential explanations for this large number of human infections with an avian influenza virus, we investigated whether a lack of conserved T-cell epitopes between endemic H1N1 and H3N2 influenza viruses and the novel H7N9 virus contributes to this observation. Here we demonstrate that a number of T cell epitopes are conserved between endemic H1N1 and H3N2 viruses and H7N9 virus. Most of these conserved epitopes are from viral internal proteins. The extent of conservation between endemic human seasonal influenza and avian influenza H7N9 was comparable to that with the highly pathogenic avian influenza H5N1. Thus, the ease of inter-species transmission of H7N9 viruses (compared with avian H5N1 viruses) cannot be attributed to the lack of conservation of such T cell epitopes. On the contrary, our findings predict significant T-cell based cross-reactions in the human population to the novel H7N9 virus. Our findings also have implications for H7N9 virus vaccine design.     

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。     

Phylogeography of Avian influenza A H9N2 in China

Background

During the past two decades, avian influenza A H9N2 viruses have spread geographically and ecologically in China. Other than its current role in causing outbreaks in poultry and sporadic human infections by direct transmission, H9N2 virus could also serve as an progenitor for novel human avian influenza viruses including H5N1, H7N9 and H10N8. Hence, H9N2 virus is becoming a notable threat to public health. However, despite multiple lineages and genotypes that were detected by previous studies, the migration dynamics of the H9N2 virus in China is unclear. Increasing such knowledge would help us better prevent and control H9N2 as well as other future potentially threatening viruses from spreading across China. The objectives of this study were to determine the source, migration patterns, and the demography history of avian influenza A H9N2 virus that circulated in China.

Results

Using Bayesian phylogeography framework, we showed that the H9N2 virus in mainland China may have originated from the Hong Kong Special Administrative Region (SAR). Southern China, most likely the Guangdong province acts as the primary epicentre for multiple H9N2 strains spreading across the whole country, and eastern China, most likely the Jiangsu province, acts as an important secondary source to seed outbreaks. Our demography inference suggests that during the long-term migration process, H9N2 evolved into multiple diverse lineages and then experienced a selective sweep, which reduced its genetic diversity. Importantly, such a selective sweep may pose a greater threat to public health because novel strains confer higher fitness advantages than strains being replaced and could generate new viruses through reassortment.

Conclusion

Our analyses indicate that migratory birds, poultry trade and transportation have all contributed to the spreading of the H9N2 virus in China. The ongoing migration and evolution of H9N2, which poses a constant threat to the human population, highlights the need for a more comprehensive surveillance of wild birds and for the enhancement of biosafety for China’s poultry industry.

Electronic supplementary material

The online version of this article (doi:10.1186/1471-2164-15-1110) contains supplementary material, which is available to authorized users.     

H7N9禽流感病毒小鼠感染动物模型的建立

目的建立H7N9禽流感病毒小鼠感染模型。方法 1×108,1×107或1×106TCID50H7N9禽流感病毒原液(A/Anhui/1/2013)滴鼻感染BALB/c小鼠。主要观测指标:临床症状、死亡率、病理变化、病毒载量和血清抗体检测。结果被感染的小鼠表现为竖毛、弓背、体重下降;病理表现为间质性肺炎,感染后第2天开始在呼吸道脱落细胞中检测到病毒;免疫组化或病毒分离方法在肺、肾、脑、肠、脾等组织检测到病毒;感染后14 d在小鼠血清中血凝抑制试验特异性抗体效价达到160;淋巴细胞减少,中性粒细胞增多。结论 H7N9感染BALB/c小鼠模型与人类禽流感感染疾病的基本特征相似,为研究该病的发病机制及药物疫苗的研发提供了工作基础。     

H9N2 influenza virus in China: a cause of concern

The recent human infection with avian influenza virus revealed that H9N2 influenza virus is the gene donor for H7N9 and H10N8 viruses infecting humans. The crucial role of H9N2 viruses at the animal-human interface might be due to the wide host range, adaptation in both poultry and mammalian, and extensive gene reassortment. As the most prevalent subtype of influenza viruses in chickens in China, H9N2 also causes a great economic loss for the poultry industry, even under the long-term vaccination programs. The history, epidemiology, biological characteristics, and molecular determinants of H9N2 influenza virus are reviewed in this paper. The contribution of H9N2 genes, especially RNP genes, to the infection of humans needs to be investigated in the future.     

Protection against avian influenza H9N2 virus challenge by immunization with hemagglutinin- or neuraminidase-expressing DNA in BALB/c mice

Avian influenza viruses of H9N2 subtype are widely spread in avian species. The viruses have recently been transmitted to mammalian species, including humans, accelerating the efforts to devise protective strategies against them. In this study, an avian influenza H9N2 virus strain (A/Chicken/Jiangsu/7/2002), isolated in Jiangsu Province, China, was used to infect BALB/c mice for adaptation. After five lung-to-lung passages, the virus was stably proliferated in a large quantity in the murine lung and caused the deaths of mice. In addition, we explored the protection induced by H9N2 virus hemagglutinin (HA)- and neuraminidase (NA)-expressing DNAs in BALB/c mice. Female BALB/c mice aged 6-8 weeks were immunized once or twice at a 3-week interval with HA-DNA and NA-DNA by electroporation, respectively, each at a dose of 3, 10 or 30microg. The mice were challenged with a lethal dose (40x LD(50)) of influenza H9N2 virus four weeks after immunization once or one week after immunization twice. The protections of DNA vaccines were evaluated by the serum antibody titers, residual lung virus titers, and survival rates of the mice. The result showed that immunization once with not less than 10microg or twice with 3microg HA-DNA or NA-DNA provided effective protection against homologous avian influenza H9N2 virus.     

Adjuvant can improve protection induced by OMV vaccine against Neisseria meningitidis serogroups B/C in neonatal mice

Meningococcal outer membrane vesicle (OMV) vaccines are weak antigens in infants. This study aimed at investigating alternative adjuvants for induction of functional antibodies in newborn mice. Serogroup B/C anti-meningococcal vaccines, consisting of capsular polysaccharide from serogroup C (PSC) conjugated to OMV from one serogroup B serosubtype prevalent in Brazil, combined with OMV from another prevalent serosubtype, were tested in newborn and adult mice with the following adjuvants: aluminum hydroxide, MPL (monophosphoryl lipid A), Titermax and MF59. Total IgG, IgG avidity index determination and bactericidal assay were performed with sera from immunized mice. Antibodies induced against PSC in newborn mice showed avidity and bactericidal titers, similar to those obtained in adult mice, independently of the adjuvant. Evidence is presented that the inclusion of MF59 enhanced the immune response against OMV in newborn mice.     

Genetic tuning of avian influenza A (H7N9) virus promotes viral fitness within different species

Since their emergence in eastern China, novel influenza A (H7N9) viruses have been continuously circulating in poultry and causing human infections and death. We have proposed a “genetic tuning” mechanism for the genesis and evolution of the novel H7N9 virus during interspecies transmission.