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1.
为详细探讨小鼠不同次数接种B型流感病毒HA DNA疫苗后免疫应答情况,以及CpG基序的免疫佐剂效果,采用不同剂量HA DNA,1次或2次(间隔3周)电击法免疫BALB/C小鼠。初免4周后(或二免加强免疫1周后)用致死量流感病毒(B/Ibaraki/2/85)攻击。研究发现:①100μg HA DNA一次接种的小鼠全部存活;②经含有CpG基序的DNA免疫的小鼠体内诱导产生的抗HAIgG抗体更高,小鼠体重丢失更少。这些结果说明,1次接种100μg HA DNA疫苗可以使小鼠抵抗致死量B型流感病毒攻击,CpG基序能够增强HA DNA疫苗的免疫保护作用。  相似文献   

2.
邹丽容  方芳  陈则 《中国病毒学》2004,19(2):105-109
为了检测表达CD40L的质粒能否作为核酸疫苗佐剂提高A/PR8/34流感病毒血凝素(HA)DNA疫苗的免疫应答,构建了表达鼠CD40L的质粒,并将它与A型流感病毒的 HA DNA疫苗用电击的方法共同免疫BALB/C小鼠(各30μg),免疫两次,间隔三周,第二次免疫后1周,用致死量流感病毒A/PR8/34攻击.发现与单独免疫30μg HA相比,血清中抗HA的IgG抗体量明显提高,且以IgG2a抗体提高为主,小鼠体重减轻非常少且体重恢复加快.实验结果显示,CD40L能作为流感病毒核酸疫苗佐剂,提高小鼠抗流感病毒攻击的能力.  相似文献   

3.
流感病毒基质蛋白(matrix protein,M)在病毒复制和毒力方面有重要作用.编码基质蛋白的M1基因和M2基因胞外域序列是A型流感病毒的保守序列,是研究具有交叉保护能力流感疫苗的候选基因.我们构建了真核表达质粒pCAGGSP7/M1和pCAGGSP7/M2,用质粒DNA免疫小鼠以观察其免疫原性.分别在M1DNA免疫2、3、4、5、6次或M2 DNA免疫4、5、6次7 d后,用致死量同源流感病毒A/PR/8攻击小鼠,通过检测小鼠血清抗体滴度、肺部病毒量和小鼠存活率来观察质粒DNA的保护效果.结果表明,随着免疫次数增加,M1 DNA免疫组在病毒攻击后小鼠存活率增高,而M2 DNA免疫组小鼠攻毒后全部死亡.说明M1 DNA多次免疫后能提供抗流感病毒的部分保护,M2 DNA没有免疫保护作用.  相似文献   

4.
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。  相似文献   

5.
H9亚型流感病毒是引起大流感的潜在威胁.抗血清被动免疫是一种有效的应对流感的方法.采用H9N2禽流感病毒血凝素(hemagglutinin,HA)DNA重组质粒免疫BALB/c小鼠制备抗血清.在致死量同源病毒感染前或后通过尾静脉给小鼠注射不同剂量抗血清,观察小鼠14d内的体重丢失率和死亡率.结果显示,1280血凝抑制单位(hemagglutination Inhibition unit,HIU)抗血清可给小鼠提供至少长达11d的100%预防和1d的80%治疗保护.HA DNA疫苗免疫制备的抗血清可以有效地抵抗同源H9病毒的致死攻击,在H9病毒感染的预防和治疗中发挥作用.  相似文献   

6.
流感病毒M2(基质蛋白2)是A型流感病毒的一个高度保守的蛋白。由于其免疫原性较弱,本研究采用M2 DNA疫苗初免-蛋白加强的策略来考察M2的免疫保护效果。制备A/Chicken/Jiangsu/07/2002(H9N2)流感病毒的M2 DNA疫苗以及经大肠杆菌表达的去除M2跨膜区的M2蛋白即sM2。以SPF级BALB/c小鼠为模型,电击法免疫M2 DNA疫苗,滴鼻法免疫sM2蛋白,免疫间隔三周,并于末次免疫后三周以致死量5LD50流感病毒H9N2攻击小鼠,通过检测小鼠存活率、体重丢失率、肺部病毒滴度及IgG抗体水平等指标来评价免疫的保护效果。实验结果表明,基于M2的疫苗采用DNA疫苗初免蛋白加强免疫二次的免疫程序能诱导较高的特异性抗体,明显减轻小鼠流感病症,提供完全的保护。  相似文献   

7.
为了检测表达CD40L的质粒能台作为核酸疫苗佐剂提高A/PR8/34流感病毒血凝素(HA)DNA疫苗的免疫应答,构建了表达鼠CD40L的质粒,行将它与A型流感病毒的HADNA疫苗用电击的方法共同免疫BALB/C小鼠(各30μg),免疫两次,间隔三周,第二次免疫后1周,用致死量流感病毒A/PR8/34攻击。发现与单独免疫30μgHA相比,血清中抗HA的IgG抗体节明显提高,且以IgG2a抗体提高为主,小鼠体重减轻非常少且体重恢复加快。实验结果显示,CD40L能作为流感病毒核酸疫苗佐剂,提高小鼠抗流感病毒攻击的能力。  相似文献   

8.
IL-12增强流感血凝素DNA疫苗在小鼠中抗流感作用   总被引:1,自引:0,他引:1  
流感病毒的表面抗原血凝素 (hemagglutinin ,HA)能作为DNA疫苗抗流感病毒攻击 ,在小鼠模型中检测白介素 12 (interleukin 12 ,IL 12 )能否作为HADNA疫苗佐剂增强小鼠抗流感病毒攻击。将IL 12和HA共同免疫小鼠 ,免疫 2次 ,间隔 3周 ,加强免疫后用致死量流感病毒攻击。共同免疫IL 12和HADNA与单独免疫HA相比 ,无论初免还是加强免疫后血清中抗HA的IgG抗体显著提高 ,小鼠体重丢失 (一种临床症状 )明显减少且提高了小鼠的存活率。这些结果表明了IL 12能作为一种佐剂提高流感DNA疫苗的免疫效价。  相似文献   

9.
<正>为提高普通疫苗和合成疫苗的功效,有必要寻找出安全、有效的用于人体的适宜佐剂。近来我们已报导了霍乱毒素B亚单位(CTB),它作为佐剂用于鼻内流感HA疫苗免疫大有希望。即:BALB/c小鼠以A型流感病毒HA疫苗和CTB联合鼻内接种后,即可产生高水平鼻内IgA抗体,这种抗体与不同的A型流感病毒HA疫苗有交叉反应性,又可诱发对病毒攻击的交叉抗性。  相似文献   

10.
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。  相似文献   

11.
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12.
Wang F  Yang W  Fang F  Chang H  Yu P  Chen Z 《DNA and cell biology》2008,27(7):377-385
Hemagglutinin (HA) is the main surface glycoprotein of influenza B virus. The B/Ibaraki/2/85 virus HA gene is 1758 bp in length, including signal peptide sequence, HA1 sequence, and HA2 sequence. We previously proved that B/Ibaraki/2/85 HA DNA induced immune response and provided effective protection in mice against challenge with homologous virus. In this study, a series of recombinant plasmids encoding truncated HA gene were constructed by PCR. BALB/c mice were immunized with the plasmids and challenged with a lethal dose of homologous virus. The essential sequence of HA DNA against influenza virus was explored by evaluation of survival rate, lung virus titer, bodyweight change, and serum anti-HA antibody titer of mice. The result showed that serial deletion did not deprive HA DNA of its protective ability until 885 nucleotides (295 amino acids) at 3'-terminal or 9 nucleotides of the signal peptide sequence at 5'-terminal were deleted. When the signal peptide sequence was kept intact and the 5'-terminal deletion started at the beginning of the HA1 sequence, deletion of 51 nucleotides (17 amino acids) made HA DNA lose its protective ability. This suggests that the sequence nt94-876 of B/Ibaraki/2/85 virus HA DNA played an important role in protection against infection.  相似文献   

13.
用基因枪和电穿孔法将B型流感病毒DNA疫苗免疫BALB/C小鼠 ,实验证明B型流感病毒HA ,NADNA疫苗能有效抵御致死性同源B型病毒感染。同时实验表明 ,基因枪方法较电穿孔法诱导抗体水平略低。  相似文献   

14.
A licensed live attenuated influenza vaccine is available as a trivalent mixture of types A (H1N1 and H3N2) and B vaccine viruses. Thus, interference among these viruses could restrict their replication, affecting vaccine efficacy. One approach to overcoming this potential problem is to use a chimeric virus possessing type B hemagglutinin (HA) and neuraminidase (NA) in a type A vaccine virus background. We previously generated a type A virus possessing a chimeric HA in which the entire ectodomain of the type A HA molecule was replaced with that of the type B HA, and showed that this virus protected mice from challenge by a wild-type B virus. In the study described here, we generated type A/B chimeric viruses carrying not only the chimeric (A/B) HA, but also the full-length type B NA instead of the type A NA, resulting in (A/B) HA/NA chimeric viruses possessing type B HA and NA ectodomains in the background of a type A virus. These (A/B) HA/NA chimeric viruses were attenuated in both cell culture and mice as compared with the wild-type A virus. Our findings may allow an effective live influenza vaccine to be produced from a single master strain, providing a model for the design of future live influenza vaccines.  相似文献   

15.
为了研究 H5N1 DNA 疫苗对小鼠和鸡的保护效率,用 H5N1 禽流感病毒 HA DNA 疫苗免疫 BALB/c 小鼠和 SPF 鸡 . 小鼠和鸡分别经电穿孔和肌肉注射免疫两次,间隔为 3 周 . 二次免疫后,用致死量的同源病毒进行攻毒实验 . 空白对照组在攻毒后全部死亡,而经电穿孔免疫的小鼠和鸡均获得了完全的保护,并能有效地抑制病毒在小鼠肺脏和鸡泄殖腔的繁殖 . 同时,电穿孔免疫的小鼠和鸡均产生了高水平的特异性抗体 . 经电穿孔免疫的小鼠攻毒后 CTL 反应明显加强 . 这些结果表明, HA DNA 疫苗能有效地保护小鼠和鸡对禽流感病毒的感染,同时也表明电穿孔免疫是 DNA 疫苗免疫的有效途径之一 .  相似文献   

16.

Background and Objectives

Influenza A viruses cause highly contagious diseases in a variety of hosts, including humans and pigs. To develop a vaccine that can be broadly effective against genetically divergent strains of the virus, in this study we employed molecular breeding (DNA shuffling) technology to create a panel of chimeric HA genes.

Methods and Results

Each chimeric HA gene contained genetic elements from parental swine influenza A viruses that had a history of zoonotic transmission, and also from a 2009 pandemic virus. Each parental virus represents a major phylogenetic clade of influenza A H1N1 viruses. Nine shuffled HA constructs were initially screened for immunogenicity in mice by DNA immunization, and one chimeric HA (HA-129) was expressed on both a A/Puerto Rico/8/34 backbone with mutations associated with a live, attenuated phenotype (PR8LAIV-129) and a A/swine/Texas/4199-2/98 backbone (TX98-129). When delivered to mice, the PR8LAIV-129 induced antibodies against all four parental viruses, which was similar to the breadth of immunity observed when HA-129 was delivered as a DNA vaccine. This chimeric HA was then tested as a candidate vaccine in a nursery pig model, using inactivated TX98-129 virus as the backbone. The results demonstrate that pigs immunized with HA-129 developed antibodies against all four parental viruses, as well as additional primary swine H1N1 influenza virus field isolates.

Conclusion

This study established a platform for creating novel genes of influenza viruses using a molecular breeding approach, which will have important applications toward future development of broadly protective influenza virus vaccines.  相似文献   

17.
流感病毒表面抗原血凝素( hemagglutinin,HA)是流感核酸疫苗重要的靶抗原,针对HA的保护性中和抗体主要由HA上的五个抗原表位诱导产生.在本文中,我们构建了一种以新甲型H1N1流感病毒HA1为骨架的含2个A/PR/8( H1N1)流感病毒HA抗原表位和3个新甲型H1N1流感病毒HA抗原表位的核酸疫苗,并在B...  相似文献   

18.
To develop an efficient nasal influenza vaccine, influenza A and B virus HA with rCTB as a mucosal adjuvant were administered to mice intranasally. Serum anti-HA IgG and IgA antibody responses for both HA vaccines were significantly increased in the presence of rCTB. Higher HI and neutralizing antibody titers and higher mucosal IgA antibody responses in the respiratory tract were detected when rCTB was added than without rCTB. When mice were immunized with HA vaccine with or without rCTB and challenged by intranasal administration of mouse-adapted pathogenic influenza A virus, all mice immunized with HA plus rCTB survived for seven days without any inflammatory changes in the lungs, while not all the mice immunized with HA without rCTB survived, and all of them had lung consolidations. These results demonstrate that intranasal co-administration of rCTB as a mucosal adjuvant with influenza virus HA is necessary not only for the induction of systemic and mucosal HA antibodies, but also for the protection of mice from morbidity and mortality resulting from virus infection.  相似文献   

19.
高致病性H5N1亚型禽流感病毒 (AIV) 严重威胁到人类健康,因此研制高效、安全的禽流感疫苗具有重要意义。以我国分离的首株人H5N1亚型禽流感病毒 (A/Anhui/1/2005) 作为研究对象,PCR扩增基质蛋白2 (M2) 和血凝素 (HA) 基因全长开放阅读框片段,构建共表达H5N1亚型AIV膜蛋白基因 M2和HA的重组质粒pStar-M2/HA。此外,还通过同源重组以293细胞包装出表达M2基因的重组腺病毒Ad-M2以及表达HA基因的重组腺病毒Ad-HA。用间接免疫荧光 (IFA) 方法检测到了各载体上插入基因的表达。按初免-加强程序分别用重组质粒pStar-M2/HA和重组腺病毒Ad-HA+Ad-M2免疫BALB/c小鼠,共免疫4次,每次间隔14 d。第1、3次用DNA疫苗,第2、4次用重组腺病毒载体疫苗,每次免疫前及末次免疫后14 d采集血清用于检测体液免疫应答,末次免疫后14 d采集脾淋巴细胞用于检测细胞免疫应答。血凝抑制 (HI) 实验检测到免疫后小鼠血清中的HI活性。ELISA实验检测到免疫后小鼠血清中抗H5N1亚型流感病毒表面蛋白的IgG抗体。ELISPOT实验检测到免疫后小鼠针对M2蛋白和HA蛋白的特异性细胞免疫应答。流感病毒M2与HA双基因共免疫的研究,为研究开发新型重组流感疫苗奠定了基础。  相似文献   

20.
通过RT-PCR扩增流行性感冒(流感)病毒HA基因,克隆至腺病毒穿梭载体pAd Track-MV,该重组质粒与腺病毒DNA共转化E.coli BJ5183,通过细菌内同源重组获得重组腺病毒DNA,将其转染293细胞获得重组腺病毒。PCR证实HA基因已整合至腺病毒基因组中,Western blot结果检测到重组病毒感染293细胞中HA的表达。重组病毒经滴鼻和灌胃两种途径免疫小鼠,结果2次免疫后滴鼻组和灌胃组均产生明显的免疫应答,血清IgG抗体滴度分别为1:10000和1:1000。除血清IgG外,还在肺灌洗液中检测到分泌型IgA。滴鼻组的免疫效果强于灌胃组。经小剂量攻毒实验显示,重组腺病毒保护率为100%。该文成功构建了表达流感病毒HA基因的非复制型重组腺病毒,重组病毒免疫小鼠可产生较好的免疫效果。  相似文献   

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