流行性感冒裂解疫苗免疫原性试验及电镜观察

实验报告了以三硝基甲苯X-100(Triton X-100)为裂解剂对流行性感冒病毒裂解效果的电镜观察结果及裂解疫苗的免疫原性。通过对病毒纯化、裂解、再纯化制备的3批流行性感冒裂解疫苗样品的电镜观察,表明使用此裂解剂能使疫苗中的病毒裂解完全,无完整病毒颗粒,裂解效果好。安全试验和免疫试验结果表明疫苗的安全性好,免疫效果好。     

麻疹疫苗生产连续培养多次收获工艺研究

本研究对连续培养多次收获工艺用于麻疹疫苗生产的可行性、疫苗维持液保护剂、冻干保护剂及冻干过程等进行了大量反复试验,结果表明在现行条件下,本生产工艺具有重复性好、成本低、投入产出率高、易于质量控制等优势。对本工艺生产疫苗进行全面检定,表明成品滴度和稳定性试验指标等均高于９０版《生物制品规程》要求,并在试验基础上制定出了生产工艺流程。     

冻干腮腺炎活疫苗细胞培养生产工艺研究

报告了冻干腮腺炎活疫苗细胞培养生产工艺研究结果,通过对鸡胚疫苗株的适应培养及对细胞培养生产工艺的试验优化,建立了连续细胞培养多次收获疫苗生产工艺并制备出了冻干细胞培养腮腺炎活疫苗制剂。本生产工艺切实可行,生产成本低、投入产出率高,所用原材料规范、质量易于控制,具有明显的技术优势。生产的冻干疫苗制剂质量稳定可靠,符合中国生物制品规程要求,有利于预防腮腺炎的规模化推广使用     

精制Vero细胞狂犬病疫苗的灭活和纯化

通过狂犬病病毒灭活和纯化试验,试验精制Vero细胞狂犬病疫苗。疫苗经检测残余小牛血清白蛋白含量,Vero细胞残余DNA含量,疫苗效价,安全试验均能达到WHO规程要求。初步建立了适合大规模生产精制Vero细胞狂犬病疫苗的灭活和纯化工艺。     

四价流感病毒裂解疫苗安全性及免疫原性研究

目的探讨四价流感病毒裂解疫苗(quadrivalent influenza vaccine,QIV)的安全性和有效性。方法用WHO当年推荐的A1型、A3型和2株B型流行性感冒病毒株制备QIV,按照企业注册标准及《中华人民共和国药典》2015版(三部)的要求全面检定后进行毒理试验和免疫原性试验。结果毒理试验结果显示,QIV在动物中未见有害作用的剂量为15μg/株;免疫原性试验结果显示,免疫效果完全能够达到或超过三价流感病毒裂解疫苗(trivalent influenza vaccine,TIV)的免疫效果,且QIV所特有的B2亚型,除最低剂量外,小鼠的血凝抑制抗体(hemagglutination inhibition,HI)滴度均超过了1∶40的阳性水平。结论本试验条件下QIV在动物中具有良好的安全性和免疫原性。     

流行性感冒裂解疫苗临床免疫效果观察

兰州生物制品研究所研制的流行性感冒病毒裂解疫苗于2003年9月~12月在广西进行Ⅰ~Ⅲ临床试验,对疫苗的安全性和免疫原性进行考核评价。试验中随机选取852人(6月龄~67岁)接种试验疫苗,227人接种对照疫苗。6~36月龄的婴幼儿接种2针,每次0.25m l,间隔28天;成人接种0.5 m l。所有接种对象均未见红肿和硬结等局部反应;发生低热反应(37.1℃~37.5℃)率为3.5%,均于48小时内恢复正常。疫苗接种后易感人群的H I抗体总阳转率为100%,非易感人群的H I抗体几何平均效价增长7.1~16.8倍,抗体4倍增长率为73.1%~91.7%。证实该疫苗具有良好的安全性和免疫原性。     

冻干人用狂犬病纯化疫苗的研制

在以原代地鼠肾细胞培养生产狂犬病疫苗工艺的基础上,通过对病毒收获液的浓缩倍数、灭活方式的改进及优化、冻干稳定剂的筛选、冻干曲线的确立,制备出了冻干疫苗,其质量及稳定性较液体疫苗有了整体水平的提高,各项检定结果均符合《中国生物制品规程》(2000版)。     

流行性感冒病毒灭活疫苗规模化生产工艺的建立

本文报告了流行性感冒病毒疫苗规模化生产工艺的建立及结果,用鸡胚分别接种A1,A3,和B型病毒株,培养后进行了纯化,配苗及检定,对培养时间,收获量、离心分离及纯化、灭活、脱糖等重要步骤进行了优化比较。结果表明,培养66小时病毒滴度及收获量达到最高;采用蔗糖密度梯度离心可收到理想的分离效果;超滤脱糖优于透析法;β-丙内酯在生产中是一种理想的灭活剂,并依此筛选出最优化工艺配置,建立了切实可行的疫苗规模生产工艺,成功制备了质量稳定,安全可靠的疫苗制剂。     

流感病毒裂解疫苗裂解剂去除方法的研究

裂解剂的残余含量是流感病毒裂解疫苗的主要质控指标之一。实验中采用膜超滤法和透析法做了裂解剂去除的比较研究。结果表明,膜超滤法效果优于透析法。其血凝素抗原纯化收率达到90%,裂解剂去除达98%以上;疫苗生产无菌操作和细菌内毒素易于控制,成本低,易于大规模生产。     

Vero细胞无血清培养技术的研究与应用

Vero细胞是世界卫生组织和我国生物制品规程认可的疫苗生产细胞系。随着对疫苗质量和安全性要求的不断提高,用无血清培养基取代含血清培养基培养Vero细胞已成为病毒疫苗生产的一个重要发展趋势。Vero细胞无血清培养的技术关键是研发或选择能支持细胞以贴附培养方式生长的无血清培养基。微载体培养是贴附依赖性细胞系规模化培养和病毒疫苗生产的有效技术途径。我们对Vero细胞无血清培养基的研发、Vero细胞无血清培养及病毒疫苗生产工艺做了讨论,对该领域存在的问题和发展策略进行了展望。     

Modern features of the epidemiology and prophylaxis of influenza

Modern concepts concerning influenza pandemics and epidemics in different countries of the world are presented. The influenza epidemics of the last decade in different countries of the world and their specific features linked with the "drifting" variability of influenza virus have been analyzed. Information on influenza morbidity during the last 30 years is given; on the basis of this information the role of vaccinal prophylaxis and mainly the mass vaccination of school children and students, is shown. The results of the efficacy of such vaccines as live influenza vaccine, American split vaccine, Russian live recombinant vaccine and Grippovac (1995-1996), as well as new-generation vaccine Grippol (1998), are presented. The prospects of the combined use of specific and unspecific prophylaxis have been determined.     

甲型H1N1流感疫苗生产用工作毒种的质量控制

根据中国药典2005年版三部和WHO"人用大流行流感疫苗制备的指导原则"相关要求,以及各企业的申报规程,对全国10家甲型H1N1流感疫苗生产企业工作毒种A/Californ ia/07/2009 NYMC X-179A进行毒种检定,结果均符合中国药典2005年版三部和各企业申报规程的要求。     

Sublingual immunization with M2-based vaccine induces broad protective immunity against influenza

Background

The ectodomain of matrix protein 2 (M2e) of influenza A virus is a rationale target antigen candidate for the development of a universal vaccine against influenza as M2e undergoes little sequence variation amongst human influenza A strains. Vaccine-induced M2e-specific antibodies (Abs) have been shown to display significant cross-protective activity in animal models. M2e-based vaccine constructs have been shown to be more protective when administered by the intranasal (i.n.) route than after parenteral injection. However, i.n. administration of vaccines poses rare but serious safety issues associated with retrograde passage of inhaled antigens and adjuvants through the olfactory epithelium. In this study, we examined whether the sublingual (s.l.) route could serve as a safe and effective alternative mucosal delivery route for administering a prototype M2e-based vaccine. The mechanism whereby s.l. immunization with M2e vaccine candidate induces broad protection against infection with different influenza virus subtypes was explored.

Methods and Results

A recombinant M2 protein with three tandem copies of the M2e (3M2eC) was expressed in Escherichia coli. Parenteral immunizations of mice with 3M2eC induced high levels of M2e-specific serum Abs but failed to provide complete protection against lethal challenge with influenza virus. In contrast, s.l. immunization with 3M2eC was superior for inducing protection in mice. In the latter animals, protection was associated with specific Ab responses in the lungs.

Conclusions

The results demonstrate that s.l. immunization with 3M2eC vaccine induced airway mucosal immune responses along with broad cross-protective immunity to influenza. These findings may contribute to the understanding of the M2-based vaccine approach to control epidemic and pandemic influenza infections.     

Development and strategies of cell-culture technology for influenza vaccine

Influenza is a pandemic contagious disease and causes human deaths and huge economic destruction of poultry in the world. In order to control and prevent influenza, mainly type A, influenza vaccine for human and poultry were available since the 1940s and 1920s, respectively. In the development of vaccine production, influenza viruses were cultured originally from chicken embryos to anchorage-dependent cell lines, such as MDCK and Vero. The anchorage-independent lines have also been used to produce influenza virus, such as PER.C6 and engineering modified MDCK and Vero. During the process of influenza vaccine production, the common problem faced by all producers is how to improve the titer of influenza virus. This paper focuses on the developments of cell culture for influenza virus vaccine production, limitations of cell culture, and relative strategies for improvement virus yields in cell-culture systems.     

基于血凝素(HA)的新型流感疫苗研究进展

新型广谱流感疫苗是预防和控制不断变异的流感病毒的重要手段。血凝素(HA)是流感病毒表面的糖蛋白,具有免疫原性,但其变异性强,是A型流感病毒发生抗原变异的主要原因。近年来研究发现,HA存在保守的恒定区,可诱导机体产生流感病毒特异性广谱中和抗体,拮抗多种流感病毒的感染。因此,如何采取不同策略和方法,研发基于HA的新型疫苗成为流感防治研究的重点。就基于HA的新型流感疫苗研究进展作一综述。     

Cationic lipid/DNA complex-adjuvanted influenza A virus vaccination induces robust cross-protective immunity

Influenza A virus is a negative-strand segmented RNA virus in which antigenically distinct viral subtypes are defined by the hemagglutinin (HA) and neuraminidase (NA) major viral surface proteins. An ideal inactivated vaccine for influenza A virus would induce not only highly robust strain-specific humoral and T-cell immune responses but also cross-protective immunity in which an immune response to antigens from a particular viral subtype (e.g., H3N2) would protect against other viral subtypes (e.g., H1N1). Cross-protective immunity would help limit outbreaks from newly emerging antigenically novel strains. Here, we show in mice that the addition of cationic lipid/noncoding DNA complexes (CLDC) as adjuvant to whole inactivated influenza A virus vaccine induces significantly more robust adaptive immune responses both in quantity and quality than aluminum hydroxide (alum), which is currently the most widely used adjuvant in clinical human vaccination. CLDC-adjuvanted vaccine induced higher total influenza virus-specific IgG, particularly for the IgG2a/c subclass. Higher levels of multicytokine-producing influenza virus-specific CD4 and CD8 T cells were induced by CLDC-adjuvanted vaccine than with alum-adjuvanted vaccine. Importantly, CLDC-adjuvanted vaccine provided significant cross-protection from either a sublethal or lethal influenza A viral challenge with a different subtype than that used for vaccination. This superior cross-protection afforded by the CLDC adjuvant required CD8 T-cell recognition of viral peptides presented by classical major histocompatibility complex class I proteins. Together, these results suggest that CLDC has particular promise for vaccine strategies in which T cells play an important role and may offer new opportunities for more effective control of human influenza epidemics and pandemics by inactivated influenza virus vaccine.     

流感疫苗研制的新策略

流感病毒感染可引起急性呼吸道传染病,严重危害人类的健康与生命。疫苗免疫是防控流感的重要手段。目前广泛应用的传统灭活疫苗和减毒活疫苗,在预防流感中发挥了重要作用,但存在通用性差和免疫效率低等不足。研制更为安全高效特别是能针对多种流感亚型的新型广谱疫苗成为当前流感疫苗研究的热点。随着结构生物学和反向遗传生物学等新技术的迅速发展,一些新策略不断应用于新型流感疫苗的研究,显示出良好的应用前景。     

Neonatal outcomes after influenza immunization during pregnancy: a randomized controlled trial

Background:

There are limited data about the effect of maternal influenza infection on fetuses and newborns. We performed a secondary analysis of data from the Mother’s Gift project, a randomized study designed to test the effectiveness of inactivated influenza and pneumococcal vaccines during pregnancy.

Methods:

In the Mother’s Gift project, 340 pregnant women in Bangladesh received either inactivated influenza vaccine or 23-valent pneumococcal polysaccharide vaccine (control). This study was performed from August 2004 through December 2005. We performed a secondary analysis of outcomes following maternal influenza immunization during two periods: when influenza virus was not circulating (September 2004 through January 2005) and when influenza virus was circulating (February through October 2005). We assessed gestational age, mean birth weight and the proportion of infants who were small for gestational age.

Results:

During the period with no circulating influenza virus, there were no differences in the incidence of respiratory illness with fever per 100 person-months among mothers and infants in the two groups (influenza vaccine: 3.9; control: 4.0; p > 0.9). The proportion of infants who were small for gestational age and the mean birth weight were similar between groups (small for gestational age: influenza vaccine 29.1%, control 34.3%; mean birth weight: influenza vaccine 3083 g, control 3053 g). During the period with circulating influenza virus, there was a substantial reduction in the incidence per 100 person-months of respiratory illness with fever among the mothers and infants who had received the influenza vaccine (influenza vaccine: 3.7; control: 7.2; p = 0.0003). During this period, the proportion of infants who were small for gestational age was lower in the influenza vaccine group than in the control group (25.9% v. 44.8%; p = 0.03). The mean birth weight was higher among infants whose mothers received the influenza vaccine than among those who received the control vaccine during this period (3178 g v. 2978 g; p = 0.02).

Interpretation:

During the period with circulating influenza virus, maternal immunization during pregnancy was associated with a lower proportion of infants who were small for gestational age and an increase in mean birth weight. These data need confirmation but suggest that prevention of influenza infection in pregnancy can influence intrauterine growth.

Trial Registration:

ClinicalTrials.gov: {"type":"clinical-trial","attrs":{"text":"NCT 00142389","term_id":"NCT00142389"}}NCT 00142389Influenza infection in young infants is common and results in high rates of hospital admission,¹ but infection can be prevented by immunization of the mother during pregnancy.² There are few prospective studies of the effect of antenatal vaccination against influenza on fetal and neonatal outcomes.³ There is conflicting information about the effect of maternal influenza infection on the fetus and newborn,³ though other antepartum maternal infections have well-described adverse effects on the fetus.⁴The Mother’s Gift project is a randomized trial designed to assess the safety and efficacy of maternal pneumococcal and influenza immunization in Bangladesh. The primary outcomes of this study have been reported.² In the current article, we report the results of a secondary analysis to assess the hypothesis that influenza immunization influenza the outcomes of infants whose mothers were exposed to influenza during pregnancy.     

Baculovirus Displaying Hemagglutinin Elicits Broad Cross-Protection against Influenza in Mice

The widespread influenza virus infection further emphasizes the need for novel vaccine strategies that effectively reduce the impact of epidemic as well as pandemic influenza. Conventional influenza vaccines generally induce virus neutralizing antibody responses which are specific for a few antigenically related strains within the same subtype. However, antibodies directed against the conserved stalk domain of HA could neutralize multiple subtypes of influenza virus and thus provide broad-spectrum protection. In this study, we designed and constructed a recombinant baculovirus-based vaccine, rBac-HA virus, that expresses full-length HA of pandemic H1N1 influenza virus (A/California/04/09) on the viral envelope. We demonstrated that repeated intranasal immunizations with rBac-HA virus induced HA stalk-specific antibody responses and protective immunity against homologous as well as heterosubtypic virus challenge. The adoptive transfer experiment shows that the cross-protection is conferred by the immune sera which contain HA stalk-specific antibodies. These results warrant further development of rBac-HA virus as a broad-protective vaccine against influenza. The vaccine induced protection against infection with the same subtype as well as different subtype, promising a potential universal vaccine for broad protection against different subtypes to control influenza outbreaks including pandemic.