泛素基因介导下的猪繁殖与呼吸综合征病毒M基因对小鼠的免疫试验

摘要：【目的】获得猪繁殖与呼吸综合征病毒（Porcine Reproductive and Respiratory Syndrome virus, PRRSV）M蛋白基因及其与泛素（Ubiquitin, Ub）基因融合的真核表达质粒,并进一步研究Ub对M基因免疫效果的影响。【方法】利用RT-PCR技术以PRRSV CH-1a株和BALB/c小鼠脾脏组织总RNA为模板,分别扩增出PRRSV M蛋白基因与小鼠的Ub基因,利用SOE技术将PRRSV M基因与小鼠Ub基因进行融合,最终构建真核表达质粒pVAX1-M与pVAX1-U-M。以两种真核表达质粒DNA肌肉免疫BALB/c小鼠后,分别检测体液免疫反应与细胞免疫反应,比较M单基因与Ub-M融合基因DNA免疫所诱生的免疫应答强度【结果】IFA试验表明,pVAX1-M与pVAX1-U-M均能BHK-21细胞内成功表达目的基因;两种重组质粒免疫小鼠后均可诱生PRRSV ELISA抗体与细胞免疫反应,但是pVAX1-U-M诱导的细胞免疫反应明显高于pVAX1-M,差异显著（P<0.05）;而其诱导的抗体水平明显低于pVAX1-M,二者差异也显著（P<0.05）。【结论】泛素在一定程度上可以促进PRRSV M基因诱导细胞免疫反应,但对体液免疫未见到同样作用。     

IL-15基因佐剂对HIV-1B亚型gp160DNA及腺病毒载体疫苗的免疫效果的影响

本研究构建了IL15质粒以评估其对表达HIV-1gp160的DNA和腺病毒5型载体疫苗的免疫效果的影响。我们构建表达IL15的质粒pVR-IL15,将pVR-IL15联合pVR-HIVgp160初免Ad5-HIVgp160加强方式免疫BALB/c小鼠,用IFN-γELISPOT和ELISA等方法比较疫苗单独免疫组小鼠与疫苗加IL15佐剂组小鼠诱导的细胞免疫和体液免疫反应的强度。结果显示疫苗加IL15佐剂组小鼠诱导的细胞免疫反应和体液免疫反应比疫苗单独免疫组小鼠相均有显著增强。构建的IL15基因佐剂可以增强HIV DNA疫苗初免和腺病毒疫苗加强免疫策略的免疫效果。     

乙型脑炎病毒DNA初免-蛋白加强策略在小鼠模型上的免疫效应评价

为了评价基因Ⅰ型乙型脑炎病毒prM-E DNA疫苗与prM和EⅢ融合抗原亚单位疫苗采用DNA初免-蛋白加强免疫策略对小鼠的免疫效果,本研究将prM-E融合基因插入到pVAX1真核表达载体中,构建重组表达载体prM-E-pVAX1作为DNA疫苗进行初免,利用原核表达系统获得的prM和EⅢ融合抗原作为亚单位疫苗进行加强免疫。将32只4−6周龄雌性BALB/c小鼠随机分成4组,设置prM-E-pVAX1 DNA疫苗组、DNA初免-蛋白加强免疫组、prM和EⅢ融合抗原亚单位疫苗组及pVAX1载体对照组,通过ELISA检测血清中特异性抗体水平;通过噬斑减少中和试验滴定中和抗体滴度;通过细胞因子表达丰度和淋巴细胞增殖试验分析不同疫苗免疫组诱导产生的细胞免疫反应。结果表明,用DNA初免-蛋白加强策略免疫的小鼠诱导产生的中和抗体滴度略高于prM和EⅢ融合抗原亚单位疫苗免疫组,显著高于prM-E-pVAX1 DNA疫苗免疫组。DNA初免-蛋白加强策略在小鼠模型中诱导产生了有效的Th1/Th2型免疫反应,特别是显著诱导了Th1型细胞免疫反应。本研究为预防流行性乙型脑炎提供了新的免疫策略和理论参考依据。     

HBV包膜-核心蛋白融合基因DNA疫苗诱导小鼠持久的细胞免疫应答

构建编码HBV包膜-核心蛋白融合基因的DNA疫苗pSC、pSS1S2C和编码HBV包膜蛋白或核心蛋白基因的DNA疫苗pHBs、pHBc,分别肌肉注射免疫BALB/c小鼠,检测小鼠的血清抗体、T细胞增殖和细胞毒性T淋巴细胞反应,比较融合基因DNA疫苗与单基因DNA疫苗诱生免疫应答的强度,发现融合基因DNA疫苗诱生抗体的效率明显不及单基因DNA疫苗,但其能诱导更强、更持久的细胞免疫应答,表明HBV包膜-核心蛋白融合基因DNA疫苗对于治疗慢性乙型肝炎可能比单基因DNA疫苗更为有效.     

以减毒沙门氏菌为载体的小鼠肝炎病毒DNA疫苗的构建及其免疫原性

目的：构建以减毒沙门氏菌为载体的小鼠肝炎病毒DNA疫苗,研究该疫苗的免疫原性。方法：以小鼠肝炎病毒S1基因的重组真核表达质粒pVAX1—S1免疫BALB／c小鼠,ELISA检测其诱导抗体产生情况;再将重组质粒pVAX1—S1电转化到减毒鼠伤寒沙门氏菌SL7207中,构建运送S1基因的重组减毒沙门氏菌SL7207（pVAX1—S1）,口服免疫BALB／c小鼠,间接免疫荧光试验鉴定减毒沙门氏菌运送的DNA疫苗的免疫原性。结果：与pVAX1空载体对照组相比,重组真核表达质粒pVAX1—S1免疫组二免及三免后抗体水平分别存在显著性差异（P〈0．05）和极显著性差异（P〈0．01）。减毒沙门氏菌运送的DNA疫苗SL7207（pVAX1—S1）诱导小鼠产生了特异性的血清抗体。结论：构建的重组减毒沙门氏菌SL7207（pVAX1—S1）具有良好的免疫原性,可诱导小鼠产生特异性的体液免疫应答。这为进一步研制冠状病毒新型基因疫苗奠定了基础。     

融合表达小鼠IgG2b-Fc可增强人类免疫缺陷病毒1型Gag DNA疫苗的免疫原性

为阐明小鼠IgG2b-Fc对DNA疫苗免疫原性的增强作用,首先构建表达人类免疫缺陷病毒1型(human immunodeficiency virus type 1,HIV-1)CN54Gag基因的DNA疫苗及表达Gag与小鼠IgG2b-Fc融合基因的DNA疫苗,限制性酶切和DNA测序结果表明这两个疫苗均构建成功,蛋白免疫印迹结果也显示其正确表达。然后,利用上述DNA疫苗接种C57BL/6小鼠,比较两个DNA疫苗所诱导的特异性体液免疫反应和特异性细胞免疫反应。结果显示,融合表达小鼠IgG2b-Fc对特异性细胞免疫和体液免疫反应均有增强作用,但只有对特异性体液免疫反应的增强作用有统计学意义。     

HIV-2 gag-gp105嵌合基因DNA疫苗对小鼠的免疫原性研究

利用真核表达载体 pVAX1 构建 HIV-2 gag-gp105 嵌合基因的重组质粒 pVAX1gag-gp105,将其转入 BHK21细胞中,利用间接免疫荧光方法检测其表达情况。进一步分别将核酸疫苗质粒 pVAX1gag-gp105、对照组质粒pVAX1 和 PBS 溶液经肌肉注射免疫 BALB/c 小鼠,检测免疫小鼠脾 CD4 、CD8 T 细胞亚群的数量,脾特异性 CTL杀伤活性和血清抗体滴度。结果显示,重组核酸疫苗质粒 pVAX1gag-gp105 疫组小鼠脾 CD4 、CD8 T 细胞亚群的数值均比对照组高( P<0.01),脾特异性 CTL 杀伤活性与对照组相比差异极显著(P<0.01),血清抗体滴度显著高于对照组(P<0.01) 。以上结果表明,HIV-2 gag-gp105 嵌合基因 DNA 疫苗对 BALB/c 小鼠具有良好的体液和细胞免疫原性。     

HIV-2gag-gp105嵌合基因DNA疫苗对小鼠的免疫原性研究

利用真核表达载体pVAX1构建HIV-2 gag-gp105嵌合基因的重组质粒pVAX1gag-gp105,将其转入BHK21细胞中,利用间接免疫荧光方法检测其表达情况.进一步分别将核酸疫苗质粒pVAX1gag-gp105、对照组质粒pVAX1和PBS溶液经肌肉注射免疫BALB/c小鼠,检测免疫小鼠脾CD4+、CD8+T细胞亚群的数量,脾特异性CTL杀伤活性和血清抗体滴度.结果显示,重组核酸疫苗质粒pVAX1gag-gp105疫组小鼠脾CD4+、CD8+T细胞亚群的数值均比对照组高(P＜0.01),脾特异性CTL杀伤活性与对照组相比差异极显著(P＜0.01),血清抗体滴度显著高于对照组(P＜0.01).以上结果表明,HIV-2 gag-gp105嵌合基因DNA疫苗对BALB/c小鼠具有良好的体液和细胞免疫原性.     

共表达H5N1流感病毒M1和HA基因的DNA疫苗与腺病毒载体疫苗的小鼠免疫评价

为评价在小鼠体内表达流感病毒M1和HA基因诱导的免疫反应,制备共表达H5N1亚型禽流感病毒 (A/Anhui/1/2005) 全长基质蛋白1 (M1) 基因和血凝素 (HA) 基因的重组DNA疫苗pStar-M1/HA和重组腺病毒载体疫苗Ad-M1/HA,将其按初免-加强程序免疫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采集小鼠血清用于检测体液免疫应答,末次免疫后14 d采集小鼠脾淋巴细胞用于检测细胞免疫应答。血凝     

HIV gag基因修饰在不同载体系统中对免疫效果的影响

目的:了解gag基因修饰前后在不同载体系统中的表达水平差异对免疫效果的影响,为确定HIV疫苗中能诱发较高水平细胞免疫的Gag靶抗原奠定实验基础。方法:将含有优化前后gag基因的HIV-1 DNA(pVRC)疫苗和重组痘苗病毒(rVV)载体疫苗单独或联合免疫BALB/c小鼠,利用IFN-γ酶联免疫斑点法和胞内细胞因子染色检测各组的细胞免疫效果,ELISA检测体液免疫水平,分别比较基因优化前后及在不同载体内的Gag诱发的免疫效果。结果:DNA疫苗中gag基因修饰后细胞免疫反应由472提高至925 SFC/106MNC,抗体滴度随免疫次数增加而提高,基因修饰后第二针的抗体水平由104.2提高至105.3,三针后则没有差别;而以rVV为载体的疫苗基因修饰前后细胞免疫反应(~320 SFC/106MNC)和抗体水平(~104.4)均没有差异。2种疫苗联合免疫均可显著提高Gag修饰前后在小鼠体内的免疫效果,基因修饰后细胞免疫反应由1700提高至2100 SFC/106MNC,抗体水平则没有差别。结论:gag基因修饰明显提高常规DNA疫苗免疫效果,并可进一步提高联合免疫效果,但对rVV疫苗单独免疫效果无明显影响。     

Gender differences in human immunodeficiency virus type 1-specific CD8 responses in the reproductive tract and colon following nasal peptide priming and modified vaccinia virus Ankara boosting

Induction of mucosal anti-human immunodeficiency virus type 1 (HIV-1) T-cell responses in males and females will be important for the development of a successful HIV-1 vaccine. An HIV-1 envelope peptide, DNA plasmid, and recombinant modified vaccinia virus Ankara (rMVA) expressing the H-2D(d)-restricted cytotoxic T lymphocyte P18 epitope were used as immunogens to test for their ability to prime and boost anti-HIV-1 T-cell responses at mucosal and systemic sites in BALB/c mice. We found of all prime-boost combinations tested, an HIV-1 Env peptide subunit mucosal prime followed by systemic (intradermal) boosting with rMVA yielded the maximal induction of gamma interferon (IFN-gamma) spot-forming cells in the female genital tract and colon. However, this mucosal prime-systemic rMVA boost regimen was minimally immunogenic for the induction of genital, colon, or lung anti-HIV-1 T-cell responses in male mice. We determined that a mucosal Env subunit immunization could optimally prime an rMVA boost in female but not male mice, as determined by the magnitude of antigen-specific IFN-gamma responses in the reproductive tracts, colon, and lung. Defective mucosal priming in male mice could not be overcome by multiple mucosal immunizations. However, rMVA priming followed by an rMVA boost was the optimal prime-boost strategy for male mice as determined by the magnitude of antigen-specific IFN-gamma responses in the reproductive tract and lung. Thus, prime-boost immunization strategies able to induce mucosal antigen-specific IFN-gamma responses were identified for male and female mice. Understanding the cellular and molecular basis of gender-determined immune responses will be important for optimizing induction of anti-HIV-1 mucosal immune responses in both males and females.     

Vaccine with bacterium-like particles displaying HIV-1 gp120 trimer elicits specific mucosal responses and neutralizing antibodies in rhesus macaques

Preclinical studies have shown that the induction of secretory IgA (sIgA) in mucosa and neutralizing antibodies (NAbs) in sera is essential for designing vaccines that can effectively block the transmission of HIV-1. We previously showed that a vaccine consisting of bacterium-like particles (BLPs) displaying Protan-gp120AE-MTQ (PAM) could induce mucosal immune responses through intranasal (IN) immunization in mice and NAbs through intramuscular (IM) immunization in guinea pigs. Here, we evaluated the ability of this vaccine BLP-PAM to elicit HIV-1-specific mucosal and systemic immune responses through IN and IM immunization combination strategies in rhesus macaques. First, the morphology, antigenicity and epitope accessibility of the vaccine were analysed by transmission electron microscopy, bio-layer interferometry and ELISA. In BLP-PAM-immunized macaques, HIV-1-specific sIgA were rapidly induced through IN immunization in situ and distant mucosal sites, although the immune responses are relatively weak. Furthermore, the HIV-1-specific IgG and IgA antibody levels in mucosal secretions were enhanced and maintained, while production of serum NAbs against heterologous HIV-1 tier 1 and 2 pseudoviruses was elicited after IM boost. Additionally, situ mucosal responses and systemic T cell immune responses were improved by rAd2-gp120AE boost immunization via the IN and IM routes. These results suggested that BLP-based delivery in combination with the IN and IM immunization approach represents a potential vaccine strategy against HIV-1.     

HIV-1 Conserved Elements p24CE DNA Vaccine Induces Humoral Immune Responses with Broad Epitope Recognition in Macaques

To target immune responses towards invariable regions of the virus, we engineered DNA-based immunogens encoding conserved elements (CE) of HIV-1 p24^gag. This conserved element vaccine is designed to avoid decoy epitopes by focusing responses to critical viral elements. We previously reported that vaccination of macaques with p24CE DNA induced robust cellular immune responses to CE that were not elicited upon wild type p55^gag DNA vaccination. p24CE DNA priming followed by p55^gag DNA boost provided a novel strategy to increase the magnitude and breadth of the cellular immune responses to HIV-1 Gag, including the induction of strong, multifunctional T-cell responses targeting epitopes within CE. Here, we examined the humoral responses induced upon p24CE DNA or p55^gag DNA vaccination in macaques and found that although both vaccines induced robust p24^gag binding antibody responses, the responses induced by p24CE DNA showed a unique broad range of linear epitope recognition. In contrast, antibodies elicited by p55^gag DNA vaccine failed to recognize p24CE protein and did not recognize linear epitopes spanning the CE. Interestingly, boosting of p24CE DNA primed animals with p55^gag DNA resulted in augmentation of antibodies able to recognize p24^gag as well as the p24CE proteins, thereby inducing broadest immunity. Our results indicate that an effectively directed vaccine strategy that includes priming with the conserved element vaccine followed by boost with the complete immunogen induces broad cellular and humoral immunity focused on the conserved regions of the virus. This novel and effective strategy to broaden responses could be applied against other antigens of highly diverse pathogens.     

猪繁殖与呼吸综合征病毒GP5蛋白实验性核酸疫苗的构建及其免疫原性的初步研究

扩增了猪繁殖与呼吸综合征病毒(PRRSV)长春分离株ORF5基因,并将其克隆至真核表达载体pVAX1、pVIR-IL-18的CMV启动子下游,构建成真核表达质粒。通过Western blot以及IFA检测方法确认,所构建的2个重组DNA疫苗质粒在真核细胞能进行有效的转录,并表达了目的蛋白(GP5)。同时辅以不同佐剂进行了BALB/c小鼠免疫试验,检测了免疫后的ELISA抗体水平和脾T淋巴细胞亚群数量。结果表明:共表达猪IL-18基因的核酸疫苗pVIR-IL-18-ORF5免疫后的ELISA抗体水平和脾T淋巴细胞亚群数量均优于pVAX1-ORF5,而且加佐剂实验组优于未加佐剂的实验组。     

HIV-1结构蛋白gag-gp120与白细胞介素2联合基因免疫

在真核表达载体pVAX1中的CMV启动子下游插入IL-2基因,构建真核表达质粒pVAXIL2。将它与表达I型人免疫缺陷病毒(Humanimmunodeficiencyvirus1,HIV-1)gag-gp120的核酸疫苗质粒pVAXGE共同肌肉注射BALB/c小鼠,免疫3次后,以ELISA法检测免疫小鼠血清中抗HIV-1抗体水平,结果显示联合免疫组小鼠在免疫2周后已有抗体产生,6周后进入高峰。乳酸脱氢酶释放法检测免疫小鼠脾特异性CTL杀伤活性,结果显示联合免疫组小鼠脾特异性CTL杀伤活性显著高于pVAXGE单独免疫组(P<0.05)和载体质粒pVAX1对照组(P<0.01)。以上结果表明:HIV-1核酸疫苗质粒pVAXGE与真核表达质粒pVAXIL2联合免疫可诱导特异性体液免疫和细胞免疫应答,且免疫应答水平高于pVAXGE单独免疫组,IL-2发挥了免疫佐剂的作用,增强了核酸疫苗的免疫原性。     

A DNA vaccine prime followed by a liposome-encapsulated protein boost confers enhanced mucosal immune responses and protection

A variety of DNA vaccine prime and recombinant viral boost immunization strategies have been developed to enhance immune responses in humans, but inherent limitations to these strategies exist. There is still an overwhelming need to develop safe and effective approaches that raise broad humoral and T cell-mediated immune responses systemically and on mucosal surfaces. We have developed a novel mucosal immunization regimen that precludes the use of viral vectors yet induces potent T cell responses. Using hepatitis B surface Ag (HBsAg), we observed that vaccination of BALB/c mice with an i.m. HBsAg-DNA vaccine prime followed by an intranasal boost with HBsAg protein encapsulated in biologically inert liposomes enhanced humoral and T cell immune responses, particularly on mucosal surfaces. Intranasal live virus challenge with a recombinant vaccinia virus expressing HBsAg revealed a correlation between T cell immune responses and protection of immunized mice. A shortened immunization protocol was developed that was successful in both adult and neonatal mice. These results support the conclusion that this new approach is capable of generating a Th-type-1-biased, broad spectrum immune response, specifically at mucosal surfaces. The success of this design may provide a safe and effective vaccination alternative for human use.     

Immunogenicity of DNA and Recombinant Sendai Virus Vaccines Expressing the HIV-1 gag Gene

Combinations of DNA and recombinant-viral-vector based vaccines are promising AIDS vaccine methods because of their potential for inducing cellular immune responses. It was found that Gag-specific cytotoxic lymphocyte (CTL) responses were associated with lowering viremia in an untreated HIV-1 infected cohort. The main objectives of our studies were the construction of DNA and recombinant Sendal virus vector (rSeV) vaccines containing a gag gene from the prevalent Thailand subtype B strain in China and trying to use these vaccines for therapeutic and prophylactic vaccines. The candidate plasmid DNA vaccine pcDNA3.1( )-gag and recombinant Sendai virus vaccine (rSeV-gag) were constructed separately. It was verified by Western blotting analysis that both DNA and rSeV-gag vaccines expressed the HIV-1 Gag protein correctly and efficiently. Balb/c mice were immunized with these two vaccines in different administration schemes. HIV-1 Gag-specific CTL responses and antibody levels were detected by intracellular cytokine staining assay and enzyme-linked immunosorbant assay (ELISA) respectively. Combined vaccines in a DNA prime/rSeV-gag boost vaccination regimen induced the strongest and most long-lasting Gag-specific CTL and antibody responses. It maintained relatively high levels even 9 weeks post immunization. This data indicated that the prime-boost regimen with DNA and rSeV-gag vaccines may offer promising HIV vaccine regimens.     

Immune responses with DNA vaccines encoded different gene fragments of severe acute respiratory syndrome coronavirus in BALB/c mice

To analyze the immune responses of DNA vaccine encoded different gene fragments of severe acute respiratory syndrome coronavirus (SARS-Cov), SARS-Cov gene fragments of membrane (M), nucleocapsid (N), spike a (Sa), and spike b (Sb) proteins were cloned into pcDNA3.1 (Invitrogen) vector to form plasmids pcDNAM, pcDNAN, pcDNASa, and pcDNASb, respectively. After mice were immunized intramuscularly with pcDNAM, pcDNAN or pcDNASa-pcDNASb plasmid, blood was collected and serum was separated. Humoral immune response was detected with the enzyme-linked immunosorbent assay, and cellular immune response of SARS-Cov DNA vaccines was detected with lymphoproliferation assay and cytotoxic T lymphocyte assay. Results show that cellular and humoral immune responses can be detected after immunization with pcDNAM, pcDNAN or pcDNASa-pcDNASb plasmids in BALB/c mice. However, pcDNAM stimulated the highest cellular immune response than other plasmids, and pcDNASa-pcDNASb stimulated the highest humoral immune response in week 12. The present results not only suggest that DNA immunization with pcDNAM, pcDNAN or pcDNASa-pcDNASb could be used as potential DNA vaccination approaches to induce antibody in BALB/c mice, but also to illustrate that gene immunization with these SARS DNA vaccines different immune response characters.     

Multiclade human immunodeficiency virus type 1 envelope immunogens elicit broad cellular and humoral immunity in rhesus monkeys

The development of a human immunodeficiency virus type 1 (HIV-1) vaccine that elicits potent cellular and humoral immune responses recognizing divergent strains of HIV-1 will be critical for combating the global AIDS epidemic. The present studies were initiated to examine the magnitude and breadth of envelope (Env)-specific T-lymphocyte and antibody responses generated by vaccines containing either a single or multiple genetically distant HIV-1 Env immunogens. Rhesus monkeys were immunized with DNA prime-recombinant adenovirus boost vaccines encoding a Gag-Pol-Nef polyprotein in combination with either a single Env or a mixture of clade-A, clade-B, and clade-C Envs. Monkeys receiving the multiclade Env immunization developed robust immune responses to all vaccine antigens and, importantly, a greater breadth of Env recognition than monkeys immunized with vaccines including a single Env immunogen. All groups of vaccinated monkeys demonstrated equivalent immune protection following challenge with the pathogenic simian-human immunodeficiency virus 89.6P. These data suggest that a multicomponent vaccine encoding Env proteins from multiple clades of HIV-1 can generate broad Env-specific T-lymphocyte and antibody responses without antigenic interference. This study demonstrates that it is possible to generate protective immune responses by vaccination with genetically diverse isolates of HIV-1.     

Immunogenicity analysis following human immunodeficiency virus recombinant DNA and recombinant vaccinia virus Tian Tan prime-boost immunization

This study assessed and compared the immunogenicity of various immunization strategies in mice using combinations of recombinant DNA(pCCMp24) and recombinant attenuated vaccinia virus Tian Tan(rddVTT-CCMp24).Intramuscular immunization was performed on days 0(prime) and 21(boost).The immunogenicity of the vaccine schedules was determined by measuring human immunodeficiency virus(HIV)-specific binding antibody levels and cytokine(interleukin-2 and interleukin-4) concentrations in peripheral blood,analyzing lymphocyte proliferation capacity against HIV epitopes and CD4 + /CD8 + cell ratio,and monitoring interferon-gamma levels at different times post-immunization.The results showed that pCCMp24,rddVTT-CCMp24 and their prime-boost immunization induced humoral and cellular immune responses.The pCCMp24/rddVTT-CCMp24 immunization strategy increased CD8 + T cells and induced more IFN-γ-secreting cells compared with single-shot rDNA.The prime-boost immunization strategy also induced the generation of cellular immunological memory to HIV epitope peptides.These results demonstrated that prime-boost immunization with rDNA and rddVTT-CCMp24 had a tendency to induce greater cellular immune response than single-shot vaccinations,especially IFN-γ response,providing a basis for further studies.