季节性流感疫苗对小鼠感染H7N9禽流感病毒的保护效力

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 LD50A/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。     

季节性流感裂解疫苗在小鼠中针对同型与异型流感病毒的免疫保护效力

为了研究季节性流感裂解疫苗在小鼠中针对甲型流感病毒同型同株、同型异株、异型异株攻击的免疫保护效力及其与诱发的血凝抑制(HI)抗体滴度的关系,本研究使用我国2008~2009年度季节性流感裂解疫苗中不同剂量的甲1型流感病毒H1N1(疫苗株病毒A/Brisbane/59/2007(H1N1)-like)和甲3型流感病毒的H3N2(疫苗株病毒A/Brisbane/10/2007(H3N2)-like)疫苗组分免疫BALB/c小鼠,首先确定了能在小鼠中诱发血HI抗体滴度达到40的疫苗免疫剂量;然后以此剂量免疫小鼠,分别使用同型同株流感病毒(鼠肺适应株A/Brisbane/59/2007(H1N1)-like virus(MA))(简称A1)和同型异株流感病毒(鼠肺适应株A/Purto Rico/8/34(H1N1))(简称PR8)攻击H1N1疫苗免疫小鼠,使用异型异株流感病毒A1攻击H3N2疫苗免疫小鼠,通过体重变化和存活率情况,探讨季节性流感疫苗在小鼠中针对甲型流感病毒同型同株、同型异株、异型异株攻击的保护效力。结果显示,季节性流感裂解疫苗H1N1和H3N2组分按照HA不同剂量0.15μg、0.5μg、1.5μg、5μg和15μg免疫小鼠后,所诱发的HI抗体滴度随免疫剂量的增加而增强,1.5μgHA即可以诱发免疫小鼠HI抗体滴度达到40;以此剂量免疫小鼠,分别使用3LD50、10LD50、30LD50、100LD50、300LD50、1 000LD50和3 000LD50的同型同株流感病毒A1进行攻击,1.5μgH1N1疫苗可以100%保护小鼠抵御高至1000LD50同型同株流感病毒A1的攻击,15μg甚至可以100%保护3 000LD50同型同株流感病毒A1的攻击,但是这两个剂量免疫的小鼠在低至3LD50同型异株流感病毒PR8的攻击后都全部死亡;使用可以诱发HI抗体滴度达到140的15μg H3N2疫苗免疫小鼠,在低至3LD50异型异株流感病毒A1的攻击后亦全部死亡。以上结果表明,季节性流感疫苗可使小鼠HI抗体滴度达到40的疫苗免疫剂量为1.5μg,该免疫剂量可以有效保护小鼠抵御同型同株流感病毒的攻击,但是难以保护小鼠抵御同型异株与异型异株流感病毒的攻击,这一结果为建立以季节性流感疫苗为参考的免疫保护评价体系提供了实验依据。     

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。     

H1N1裂解疫苗辅以C48/80佐剂滴鼻免疫小鼠能够提供抗甲流的保护作用

2009年"甲型H1N1流感"全球流行导致了数以万计人的死亡。疫苗的及时研制为预防、控制甲流的传播,减少发病率和死亡率做出了重大贡献。甲流疫苗辅以佐剂滴鼻免疫能更好地抵御甲流攻击。将A/California/7/2009(H1N1)裂解疫苗辅以化合物48/80(C48/80)佐剂滴鼻免疫雌性BALB/c小鼠,免疫一次,免疫后28 d,小鼠用致死剂量的同源病毒进行攻击。结果发现,滴鼻免疫组的抗体滴度均达到很高的水平,而且随着H1N1裂解疫苗剂量的增加,其对小鼠的保护作用越强,同时添加佐剂可以更有效提高H1N1裂解疫苗的保护效果。实验结果说明H1N1裂解疫苗辅以C48/80佐剂滴鼻免疫能够保护小鼠免受流感病毒的感染。     

流感病毒NP表位序列增强H7N9 HA DNA疫苗免疫效果研究

为增强H7N9流感病毒HA DNA疫苗的免疫效果,本文构建了含有流感病毒NP的5个重复优势T表位或B表位(包括B_1线性表位和B_2构象表位)的表达质粒(简称NPT和NPB),以小鼠为动物模型,将NPT和NPB分别与H7N9流感病毒HA DNA混合免疫BALB/c小鼠1次,21 d后用致死剂量(20 LD_(50))的H7N9流感病毒攻击小鼠。通过检测免疫后小鼠血清特异性抗体滴度和攻毒后的免疫保护性指标-存活率、肺部残余病毒滴度及体重丢失率,评价表位质粒与HA DNA疫苗混合免疫对小鼠的保护效果。试验结果表明:用致死性H7N9流感病毒攻击小鼠后,HA DNA组小鼠全部死亡,HA+NPT免疫组小鼠存活率达到100%,HA+NPB1和HA+NPB2免疫组,小鼠存活率分别为30%和75%;混合免疫HA+NPT后小鼠抗体滴度升高明显,攻毒后小鼠体重丢失明显降低。综上表明,含有5个NP优势T表位或B表位的表达质粒能增强H7N9流感病毒HA DNA疫苗的免疫效果,混合免疫一次可以使小鼠得到较好的保护。HA DNA和表位疫苗的混合免疫,节约了疫苗用量,降低了免疫成本,为流感病毒核酸疫苗的临床开发提供了一定的试验基础。     

季节性和大流行性H1N1流感血凝素DNA疫苗电穿孔免疫小鼠及攻毒保护实验

在流感病毒疫苗中,DNA疫苗有望成为常规疫苗的替代品.研究构建了两个分别编码A/New Caledonia/20/99（H1N1）和A/California/04/2009（H1N1）流感病毒株血凝素抗原的DNA疫苗pV1A5和pVEH1,目的抗原经验证能够正确表达后,利用小鼠模型通过电穿孔方法肌肉注射免疫进行疫苗免疫效力评价.采用血凝抑制实验和酶联免疫吸附实验对免疫小鼠的血清进行血凝素特异性抗体检测,对血凝素特异性的T淋巴细胞经IFN-γ酶联免疫斑点实验进行检测.然后选择小鼠适应株A/NewCaledonia/20/99（H1N1）100个半数致死剂量对候选疫苗免疫的小鼠攻毒并监测生存率和体重变化率,以此评价疫苗保护效力.两疫苗组免疫小鼠T淋巴细胞和体液免疫水平显著高于pVAX1空载体对照组（P〈0.05）.此外,pV1A5组能够100%保护免疫小鼠抵抗100致死剂量同源病毒小鼠适应株的攻毒,而同种病毒下pVEH1组只有40%的保护率.结果表明,本实验构建的季节性流感DNA疫苗能够对同源病毒攻毒提供完全保护,而大流行流感株DNA疫苗只能部分抵抗季节性流感病毒.     

阳离子脂质体DOTAP佐剂对H5N1流感病毒裂解疫苗免疫效果的影响

目的研究阳离子脂质体DOTAP佐剂对H5N1型流感病毒裂解疫苗免疫效果的影响。方法制备DOTAP阳离子脂质体流感病毒裂解疫苗(简称DOTAP流感裂解疫苗),检测其包封率。将BALB/c小鼠分为13组,分别用含0.1、1.0、10.0μg HA/只剂量以DOTAP、Al(OH)3、CPG-ODN为佐剂以及不含佐剂的流感裂解疫苗于0、21天皮下免疫,PBS作为对照组,用血凝抑制试验检测小鼠初次免疫后21、42天血清HI抗体滴度;用ELISA检测初次免疫后21、42天血清特异性IgG抗体、IgG1、IgG2a亚类抗体滴度,以及初次免疫后42天小鼠脾脏单个核细胞体外经抗原刺激后细胞因子IL-2、IL-4、IFN-γ的分泌水平。将BALB/c小鼠分为3组,分别用含不同DOTAP剂量(100、300、600μg/只)的DOTAP流感裂解疫苗于0、21天皮下免疫,检测初次免疫后21、42天小鼠血清HI抗体滴度和IgG抗体滴度。结果 DOTAP流感裂解疫苗粒径在300~400 nm,带正电荷,包封率在50%以上;DOTAP流感裂解疫苗诱导的HI抗体水平和特异性IgG抗体水平均高于流感裂解疫苗,而与铝佐剂和Cp G-ODN佐剂间差异无统计学意义;DOTAP流感裂解疫苗产生的抗体仍以IgG1亚类抗体为主,免疫后42天诱导的IgG2a亚类抗体水平高于流感裂解疫苗和铝佐剂,低于Cp G-ODN佐剂;DOTAP流感裂解疫苗免疫后既分泌高水平Th1型细胞因子IFN-γ,同时也分泌高水平Th2型细胞因子IL-4;不同DOTAP剂量的DOTAP流感裂解疫苗免疫后,其HI抗体滴度和IgG抗体滴度在低、中、高剂量组之间存在明显的量效关系。结论 DOTAP作为H5N1型流感病毒裂解疫苗的佐剂可显著提高流感裂解疫苗的免疫原性,其对体液免疫应答的增强作用不低于铝佐剂和Cp G-ODN佐剂,并具有诱导细胞免疫应答的能力。     

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。     

雪貂感染流感病毒H3N2动物模型的建立

目的建立甲型流感病毒H3N2感染的雪貂动物模型。方法按实验要求筛选出流感抗体反应阴性的雪貂,经兽用氯胺酮轻度麻醉后进行滴鼻感染H3N2流感病毒株A/Brisbane/10/07,设立两个稀释度106和107 TCID50,每个稀释度接种3只雪貂,感染后第5天安乐处死。感染前采集鼻甲骨活检,感染后1～5 d鼻甲骨活检检测病毒载量,每天记录雪貂一般临床变化。处死时取雪貂肺、肝、脾、小肠、脑组织作病毒滴度检测,肺组织做病理检查。结果 106和107TCID50的H3N2病毒分别感染雪貂,没有雪貂死亡。雪貂感染后都出现一过性的体温升高,体重的下降,流涕、打喷嚏等症状。在鼻甲骨活检物中可测到病毒载量,肠组织可分离到病毒。肺组织以轻度性间质性肺炎为主要病理变化。结论雪貂感染H3N2病毒株A/Brisbane/10/07后,临床表现、病毒学、分子生物学、病理学方面的检测都可以证实雪貂感染H3N2病毒动物模型已建立,其中106 TCID50病毒滴度的是一个建立感染动物模型比较合适的剂量。     

流感泰得在小鼠体内抗H1N1型FM1株流感病毒活性研究

目的:研究流感泰得预防给药在小鼠体内对H1N1型FM1株流感病毒的抑制作用及对病毒感染小鼠的保护作用。方法:BALB/c小鼠随机分为正常对照组,病毒对照组,磷酸奥司他韦组,流感泰得2.5、5、10 mg/kg组,提前24h和1 h滴鼻给药2次,于第二次给药1 h后滴鼻感染小鼠造成肺炎模型,连续观察14 d,统计小鼠存活率、平均存活天数、体重变化;按以上方法于造模后第5 d天取肺脏,计算肺指数、肺脏病毒滴度。结果:与病毒对照组相比,流感泰得3个剂量组可明显提高病毒感染小鼠的存活率,延长平均存活时间,缓解病毒感染引起的体重降低,降低病毒感染小鼠的肺指数和肺脏病毒滴度。结论:流感泰得在小鼠体内预防给药具有抗H1N1型FM1株流感病毒活性。     

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。     

Single immunization with MF59-adjuvanted inactivated whole-virion H7N9 influenza vaccine provides early protection against H7N9 virus challenge in mice

H7N9 influenza infection in humans would result in severe respiratory illness. Vaccination is the best way to prevent influenza virus. In this paper, we investigated the effect of early protection provided by inactivated whole-virion H7N9 influenza vaccine in a mouse model.Mice were immunized intramuscularly once with different doses of inactivated whole-virion H7N9 influenza vaccine alone or in combination with MF59 adjuvant. Specific IgM and IgG antibody titers in sera of mice were detected by ELISA 3, 5 and 7days after immunization. To evaluate the early protection provided by the vaccine, mice were challenged with lethal dose (40LD₅₀) of homologous virus 3, 5 and 7 days after immunization respectively. The survival rate and body weight change of mice during 21 days after challenge and the residual lung virus titer on 3rd day after challenge were determined. The results demonstrated that mice could obtain effective protection 3 days after immunization with the vaccine at a high dose, and 5–7 days after immunization even at a low dose. Thus early immune responses induced by inactivated whole-virion H7N9 vaccine could provide effective protection.     

Memory immune responses against pandemic (H1N1) 2009 influenza virus induced by a whole particle vaccine in cynomolgus monkeys carrying Mafa-A1*052:02

We made an H1N1 vaccine candidate from a virus library consisting of 144 (?=?16 HA×9 NA) non-pathogenic influenza A viruses and examined its protective effects against a pandemic (2009) H1N1 strain using immunologically na?ve cynomolgus macaques to exclude preexisting immunity and to employ a preclinical study since preexisting immunity in humans previously vaccinated or infected with influenza virus might make comparison of vaccine efficacy difficult. Furthermore, macaques carrying a major histocompatibility complex class I molecule, Mafa-A1*052:02, were used to analyze peptide-specific CD8(+) T cell responses. Sera of macaques immunized with an inactivated whole particle formulation without addition of an adjuvant showed higher neutralization titers against the vaccine strain A/Hokkaido/2/1981 (H1N1) than did sera of macaques immunized with a split formulation. Neutralization activities against the pandemic strain A/Narita/1/2009 (H1N1) in sera of macaques immunized twice with the split vaccine reached levels similar to those in sera of macaques immunized once with the whole particle vaccine. After inoculation with the pandemic virus, the virus was detected in nasal samples of unvaccinated macaques for 6 days after infection and for 2.67 days and 5.33 days on average in macaques vaccinated with the whole particle vaccine and the split vaccine, respectively. After the challenge infection, recall neutralizing antibody responses against the pandemic virus and CD8(+) T cell responses specific for nucleoprotein peptide NP262-270 bound to Mafa-A1*052:02 in macaques vaccinated with the whole particle vaccine were observed more promptly or more vigorously than those in macaques vaccinated with the split vaccine. These findings demonstrated that the vaccine derived from our virus library was effective for pandemic virus infection in macaques and that the whole particle vaccine conferred more effective memory and broader cross-reactive immune responses to macaques against pandemic influenza virus infection than did the split vaccine.     

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.     

Heterosubtypic antibody response elicited with seasonal influenza vaccine correlates partial protection against highly pathogenic H5N1 virus

Background

The spread of highly pathogenic avian influenza (HPAI) H5N1 virus in human remains a global health concern. Heterosubtypic antibody response between seasonal influenza vaccine and potential pandemic influenza virus has important implications for public health. Previous studies by Corti et al. and by Gioia et al. demonstrate that heterosubtypic neutralizing antibodies against the highly pathogenic H5N1 virus can be elicited with a seasonal influenza vaccine in humans. However, whether such response offers immune protection against highly pathogenic H5N1 virus remained to be determined.

Methodology/Principal Findings

In this study, using a sensitive influenza HA (hemagglutinin) and NA (neuraminidase) pseudotype-based neutralization (PN) assay we first confirmed that low levels of heterosubtypic neutralizing antibody response against H5N1 virus were indeed elicited with seasonal influenza vaccine in humans. We then immunized mice with the seasonal influenza vaccine and challenged them with lethal doses of highly pathogenic H5N1 virus. As controls, we immunized mice with homosubtypic H5N1 virus like particles (VLP) or PBS and challenged them with the same H5N1 virus. Here we show that low levels of heterosubtypic neutralizing antibody response were elicited with seasonal influenza vaccine in mice, which were significantly higher than those in PBS control. Among them 2 out of 27 whose immune sera exhibited similar levels of neutralizing antibody response as VLP controls actually survived from highly pathogenic H5N1 virus challenge.

Conclusions/Significance

Therefore, we conclude that low levels of heterosubtypic neutralizing antibody response are indeed elicited with seasonal influenza vaccine in humans and mice and at certain levels such response offers immune protection against severity of H5N1 virus infection.     

H5N1重组禽流感病毒样颗粒免疫原性研究

目的对构建的H5N1重组禽流感病毒样颗粒(VLPs)进行初步免疫原性探讨,并与H5N1全病毒灭活疫苗(WIV)进行体液免疫和细胞免疫的比较。方法在0周和3周分别以纯化H5N1重组禽流感病毒样颗粒、H5N1全病毒灭活疫苗及pH7.2 PBS腿部肌肉注射BALB/c小鼠,于不同时间收集血清,以血凝抑制试验(HI)和血清IgG抗体酶联免疫吸附试验(ELISA)评估体液免疫,CD4+、CD8+T细胞亚群及酶联免疫斑点试验(ELISPOT)评估细胞免疫,并以同型毒株滴鼻攻击,观察小鼠存活率。结果病毒样颗粒各组和全病毒灭活疫苗免疫后小鼠血清ELISA IgG效价均有升高;中和抗体效价除病毒样颗粒120 ng/只免疫剂量外其他免疫小鼠HI效价均达1︰40;小鼠脾CD4+T淋巴细胞亚群分类:全病毒灭活疫苗组(600μg/只)为36.56%;病毒样颗粒组(120 ng/只,600 ng/只,2 500 ng/只)分别为26.58%,32.20%,29.25%;PBS组为26.65%;CD8+T淋巴细胞亚群分类:全病毒灭活疫苗组(600 ng/只)为10.78%;病毒样颗粒组(120 ng/只,600 ng/只,2 500 ng/只)分别为1 3.53%,14.24%,1 3.35%;PBS组为10.69%。ELISPOT试验统计学数据显示,病毒样颗粒和全病毒灭活疫苗的小鼠脾单个核细胞分泌IFN-γ细胞与PBS组有显著性差异;小鼠保护性试验结果显示,除病毒样颗粒120 ng/只免疫剂量小鼠的存活率为87.5%外,其他病毒样颗粒实验组小鼠均为100%,PBS对照组为12.5%。结论 H5N1重组禽流感病毒样颗粒能诱导体液免疫和细胞免疫,并能抵御同型病毒株的攻击,可作为H5N1人用禽流感的候选疫苗。     

新型H7N9病毒在同居小鼠中的传播途径

目的进一步了解新型H7N9流感病毒的致病性、传播能力以及通过何种途径进行传播。方法 H7N9病毒感染小鼠后与同居小鼠合笼,研究同居小鼠的临床变化指征、病毒复制情况、病毒在组织中的分布以及病理变化。以同居小鼠分泌物接种其他小鼠,观察同居小鼠通过何种途径传播病毒。结果 H7N9病毒可以在肺组织、肠组织和脑组织中复制,并可以在同居小鼠中传播。H7N9病毒感染小鼠其咽、眼分泌物以及粪便均具有感染性,其中尤以咽拭子的传播风险最高。结论 H7N9病毒可以不通过适应就感染小鼠,并引起小鼠间传播。被感染小鼠分泌物具有感染性。     

Seasonal FluMist vaccination induces cross-reactive T cell immunity against H1N1 (2009) influenza and secondary bacterial infections

T cell epitopes have been found to be shared by circulating, seasonal influenza virus strains and the novel pandemic H1N1 influenza infection, but the ability of these common epitopes to provide cross-protection is unknown. We have now directly tested this by examining the ability of live seasonal influenza vaccine (FluMist) to mediate protection against swine-origin H1N1 influenza virus infection. Naive mice demonstrated considerable susceptibility to H1N1 Cal/04/09 infection, whereas FluMist-vaccinated mice had markedly decreased morbidity and mortality. In vivo depletion of CD4(+) or CD8(+) immune cells after vaccination indicated that protective immunity was primarily dependent upon FluMist-induced CD4(+) cells but not CD8(+) T cells. Passive protection studies revealed little role for serum or mucosal Abs in cross-protection. Although H1N1 influenza infection of naive mice induced intensive phagocyte recruitment, pulmonary innate defense against secondary pneumococcal infection was severely suppressed. This increased susceptibility to bacterial infection was correlated with augmented IFN-γ production produced during the recovery stage of H1N1 influenza infection, which was completely suppressed in mice previously immunized with FluMist. Furthermore, susceptibility to secondary bacterial infection was decreased in the absence of type II, but not type I, IFN signaling. Thus, seasonal FluMist treatment not only promoted resistance to pandemic H1N1 influenza infection but also restored innate immunity against complicating secondary bacterial infections.     

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。