Toxoplasma gondii: Protective effect of an intranasal SAG1 and MIC4 DNA vaccine in mice

Infections by the intracellular protozoan parasite Toxoplasma gondii are widely prevalent in humans and other animals which can cause severe or lethal toxoplasmosis. So the development of a more effective vaccine is needed urgently. A multiantigenic vaccine against toxoplasmosis was constructed in the present study, which contains two T. gondii antigens, SAG1 and MIC4 on the basis of previous immunological and immunization studies. The eukaryotic plasmid pcDNA3.1-SAG1-MIC4, pcDNA3.1-SAG1, pcDNA3.1-MIC4 were constructed first, which can express surface protein SAG1 and microneme protein MIC4 from different stages of T. gondii life cycle, and the expression ability of these DNA vaccine in HeLa cells were examined by Western blot. The efficacy of these plasmids with or without co-administration of a plasmid encoding cholera toxin A2/B as a genetic adjuvant by mucosal way to protect BALB/c mice against toxoplasmosis was evaluated. We found these vaccines were able to elicit a significant humoral and cellular immune response in vaccinated mice and they can increase survival rate and prolong the life of mice that were infected by T. gondii especially in the pcDNA3.1-SAG1-MIC4 group. Co-delivery of cholera toxin A2/B further enhanced the potency of multiantigenic DNA vaccine by intranasal route. These results encourage further research towards achieving vaccinal protection against the T. gondii in animals and humans.     

Evaluation of the immune response elicited by multi-antigenic DNA vaccine expressing SAG1, ROP2 and GRA2 against Toxoplasma gondii

The parasite Toxoplasma gondii can infect most mammals and birds, sometimes causing severe pathology. Previous studies have reported that multi-antigenic vaccines were more effective than single-antigenic vaccine. It was also reported that the a single-gene vaccine with SAG1 or ROP2, GRA2 could only produce partial protection against T. gondii. In this study, we constructed a multi-antigenic DNA vaccine containing SAG1, ROP2 and GRA2, and evaluated its immune response. We used IL-12 as an adjuvant to enhance the immune response. We immunized BALB/c mice intramuscularly. After immunization, we evaluated the immune response using lymphocyte proliferation assay, cytokine and antibody measurements. The results showed that the group immunized with pcDNA3.1–SAG1–ROP2–GRA2 produced high Th1 immune response compared to other groups immunized with double-gene plasmid, empty plasmid or phosphate-buffered saline, respectively. Moreover, the co-immunization with IL-12 genes enhanced the immune response significantly and prolonged survival time. The current study showed that multi-antigenic DNA with IL-12 produced potent, effective and long-term protection against T. gondii challenge.     

The Effect of Bovine IFN-α on the Immune Response in Guinea Pigs Vaccinatedwith DNA Vaccine of Foot-and-Mouth Disease Virus

Foot-and-mouth disease virus (FMDV) belongs to thegenus Aphthovirus of the family Picornavidae. The FMDVgenome is a copy of positive-sense, single-stranded RNA,which contains one large open reading frame (ORF). TheORF is translated into a polypeptide, which undergoesautoproteolytic cleavage to produce the structural and non-structural proteins and ultimately forms mature viral pro-teins [1,2]. FMD is caused by the FMDV, which is a highly conta-gious vesicular disease of cloven-hoofe…     

人乳头瘤病毒16型E5与IL-12联合基因疫苗的免疫活性

为了研制人乳头瘤病毒16型(HPV16)防治性疫苗,分析了HPV16 E5与IL-12联合基因疫苗的免疫活性。将构建的pcDNA3.1(+)/E5与pcDNA3.1(+)/IL-12联合免疫BALB/c小鼠,以ELISA测定小鼠血清中抗HPV16 E5 IgG水平、小鼠脾细胞培养上清中IFN-γ和IL-4含量;MTT法检测脾淋巴细胞增殖反应。结果显示末次免疫后,联合基因疫苗组和单基因疫苗组血清IgG A450值分别明显高于pcDNA3.1(+)组、pcDNA3.1(+)/IL-12组和PBS组(P<0.01);且联合基因疫苗组显著高于单基因疫苗组(P<0.01)。联合基因疫苗组和单基因疫苗组的IFN-γ和IL-4含量分别均明显高于pcDNA3.1(+)组、pcDNA3.1(+)/IL-12组和PBS组IFN-γ和IL-4含量(P<0.01),且联合基因疫苗组含量显著高于单基因疫苗组(P<0.01)。联合基因疫苗组和单基因疫苗组脾淋巴细胞刺激指数(SI)分别显著高于pcDNA3.1(+)组、pcDNA3.1(+)/IL-12组和PBS组(P<0.01);联合基因疫苗组与单基因疫苗组比较,SI差异无统计学意义(P>0.05)。结果表明HPV16 E5单基因疫苗以及与IL-12联合基因疫苗均能刺激机体产生较强的免疫应答,且联合基因疫苗优于单基因疫苗。     

Combined IL-12 Plasmid and Recombinant SjGST Enhance the Protective and Anti-pathology Effect of SjGST DNA Vaccine Against Schistosoma japonicum

Schistosomiasis is listed as one of most important tropical diseases and more than 200 million people are estimated to be infected. Development of a vaccine is thought to be the most effective way to control this disease. Recombinant 26-kDa glutathione S-transferase (rSjGST) has previously been reported to achieve a worm reduction rate of 42–44%. To improve the efficiency of the vaccine against Schistosoma japonicum, we immunized mice with a combination of pcDNA vector-encoded 26-kDa SjGST (pcDNA/SjGST), IL-12 expressing-plasmid (pIL-12), and rSjGST. Co-vaccination with pcDNA/SjGST, pIL-12, and rSjGST led to a reduction in worm burden, hepatic egg burden, and the size of liver tissue granulomas than that in the untreated infection controls. In addition, we detected high levels of specific IgG, IgG1, and IgG2a against the rSjGST antigen in infected mice vaccinated with this combination of pcDNA/SjGST, pIL-12, and rSjGST. Moreover, high expression levels of Th2 cytokines, including IL-4 and IL-10, were also detected in this group, without diminished levels of IL-12, INF-γ, and TNF-α cytokines that are related to parasite killing. In conclusion, we have developed a new vaccination regimen against S. japonicum infection and shown that co-immunization with pcDNA/SjGST vaccine, pIL-12, and rSjGST has significant anti-parasite, anti-hepatic egg and anti-pathology effects in mice. The efficacy of this vaccination method should be further validated in large animals such as water buffalo. This method may help to reduce the transmission of zoonotic schistosomiasis japonica.     

Enhancement of Helicobacter pylori outer inflammatory protein DNA vaccine efficacy by co-delivery of interleukin-2 and B subunit heat-labile toxin gene encoded plasmids

Development of an effective vaccine for controlling H. pylori-associated infection, which is present in about half the people in the world, is a priority. The H. pylori outer inflammatory protein (oipA) has been demonstrated to be a potential antigen for a vaccine. In the present study, use of oipA gene encoded construct (poipA) for C57BL/6 mice vaccination was investigated. Whether co-delivery of IL-2 gene encoded construct (pIL-2) and B subunit heat-labile toxin of Escherichia coli gene encoded construct (pLTB) can modulate the immune response and enhance DNA vaccine efficacy was also explored. Our results demonstrated that poipA administered intradermally ('gene gun' immunization) promoted a strong Th2 immune response, whereas co-delivery of either pIL-2 or pLTB adjuvant elicited a Th1-biased immune response. PoipA administered with both pIL-2 and pLTB adjuvants promoted a strong Th1 immune response. Regardless of the different immune responses promoted by the various vaccination regimes, all immunized mice had smaller bacterial loads after H. pylori challenge than did PBS negative and pVAX1 mock controls. Co-delivery of adjuvant(s) enhances poipA DNA vaccine efficacy by shifting the immune response from being Th2 to being Th1-biased, which results in a greater reduction in bacterial load after H. pylori challenge. Both prophylactic and therapeutic vaccination can achieve sterile immunity in some subjects.     

Comparison of immune responses against FMD by a DNA vaccine encoding the FMDV/O/IRN/2007 VP1 gene and the conventional inactivated vaccine in an animal model

Foot-and-mouth disease virus (FMDV) is highly contagious and responsible for huge outbreaks among cloven hoofed animals. The aim of the present study is to evaluate a plasmid DNA immunization system that expresses the FMDV/O/IRN/2007 VP1 gene and compare it with the conventional inactivated vaccine in an animal model. The VP1 gene was sub-cloned into the unique Kpn I and BamH I cloning sites of the pcDNA3.1+ and pEGFP-N1 vectors to construct the VP₁ gene cassettes. The transfected BHKT7 cells with sub-cloned pEGFP-N1-VP1 vector expressed GFP-VP1 fusion protein and displayed more green fluorescence spots than the transfected BHKT7 cells with pEGFP-N1 vector, which solely expressed the GFP protein. Six mice groups were respectively immunized by the sub-cloned pcDNA3.1⁺-VP1 gene cassette as the DNA vaccine, DNA vaccine and PCMV-SPORT-GMCSF vector (as molecular adjuvant) together, conventional vaccine, PBS (as negative control), pcDNA3.1⁺ vector (as control group) and PCMV-SPORT vector that contained the GMCSF gene (as control group). Significant neutralizing antibody responses were induced in the mice which were immunized using plasmid vectors expressing the VP1 and GMCSF genes together, the DNA vaccine alone and the conventional inactivated vaccine (P<0.05). Co-administration of DNA vaccine and GMCSF gene improved neutralizing antibody response in comparison with administration of the DNA vaccine alone, but this response was the most for the conventional vaccine group. However, induction of humeral immunity response in the conventional vaccine group was more protective than for the DNA vaccine, but T-cell proliferation and IFN-γ concentration were the most in DNA vaccine with the GMCSF gene. Therefore the group that was vaccinated by DNA vaccine with the GMCSF gene, showed protective neutralizing antibody response and the most Th1 cellular immunity.     

趋化因子CCL2对人脐静脉内皮细胞ICAM-1 表达的影响

目的:探讨CC类趋化因子配体2(C-C motif ligand 2,CCL2)对人脐静脉内皮细胞(human umbilical vein endothelial cells,HUVECs)中细胞间粘附分子-1(intercellular adhesion molecule-1,ICAM-1)表达的影响。方法:体外分离培养HUVECs细胞,将HUVECs铺至6孔板中,待细胞融合至80-90%时,将CCL2过表达载体[pc DNA3.1(+)-CCL2]及CCL2小分子干扰RNA(si-RNA)分别转染到HUVECs中,于转染后12 h、24 h和48 h收集细胞进行RNA及蛋白提取。荧光定量PCR方法检测HUVECs中CCL2及ICAM-1基因m RNA表达。Western blotting检测HUVECs中CCL2及ICAM-1蛋白表达。结果:(1)与pc DNA3.1(+)组相比较,pc DNA3.1(+)-CCL2组中CCL2基因m RNA和蛋白水平均显著升高;与si-Control组相比较,si-CCL2组中CCL2基因m RNA和蛋白表达均明显下降。(2)与对照组比较,pc DNA3.1(+)-CCL2组明显增加HUVECs中ICAM-1的m RNA及蛋白表达,而si-CCL2组显著抑制HUVECs中ICAM-1的m RNA及蛋白表达。结论:CCL2能增加HUVECs中ICAM-1基因m RNA和蛋白表达,为深入认识动脉粥样硬化的发病机制提供了理论依据。     

Immunization with chlamydial plasmid protein pORF5 DNA vaccine induces protective immunity against genital chlamydial infection in mice

To validate the immune protective efficacy of pORF5 DNA vaccine and to analyze potential mechanisms related to this protection. In this study, pORF5 DNA vaccine was constructed and evaluated for its protective immunity in a mouse model of genital chlamydial infection. Groups of BALB/c mice were immunized intranasally with pORF5 DNA vaccine. Humoral and cell mediated immune responses were evaluated. The clearance ability of chlamydial challenge from the genital tract and the chlamy- dia-induced upper genital tract gross pathology and histopathological characterization were also de- tected. The results showed that the total and the IgG2a anti-pORF5 antibody levels in serum were sig- nificantly elevated after pcDNA3.1-pORF5 vaccination, as were the total antibody and IgA levels in vaginal fluids. pcDNA3.1-pORF5 induced a significantly high level of Th1 response as measured by robust gamma interferon (IFN-γ). Minimal IL-4 was produced by immune T cells in response to the re-stimulation with pORF5 protein or the inactive elementary body in vitro. pcDNA3.1-pORF5-vacci- nated mice displayed significantly reduced bacterial shedding upon a chlamydial challenge and an accelerated resolution of infection. 100% of pcDNA3.1-pORF5 vaccinated mice successfully resolved the infection by day 24. pcDNA3.1-pORF5-immunized mice also exhibited protection against patho- logical consequences of chlamydial infection. The stimulated index was significantly higher than that of mice immunized with pcDNA3.1 and PBS (P<0.05). Together, these results demonstrated that immu- nization with pORF5 DNA vaccine is a promising approach for eliciting a protective immunity against a genital chlamydial challenge.     

In vivo bioluminescence visualization of antitumor effects by human MUC1 vaccination

Recently, the use of a cancer deoxyribonucleic acid (DNA) vaccine encoding tumor-associated antigens has emerged as an immunotherapeutic strategy. In this study, we monitored tumor growth inhibition by pcDNA3-hMUC1 immunization in mice using optical imaging. To determine the anti-hMUC1-associated immune response generated by pcDNA3.1 or pcDNA3-hMUC1, we determined the concentration of interferon-gamma (IFN-gamma) protein and CD8+IFN-gamma cell numbers among lymphocytes from the draining lymph nodes of mice immunized with pcDNA3.1 or pcDNA3-hMUC1. After subcutaneously injecting CT26/hMUC1-Fluc into mice immunized with pcDNA3-hMUC1, we monitored in vivo tumor growth inhibition using an optical imaging method. The concentration of IFN-gamma protein in pcDNA3-hMUC1 was higher than that of the pcDNA3.1 group (2.7 < or = 0.08 ng/mL and 1.6 +/- 0.07 ng/mL, respectively, p < .001. The number of hMUC1-associated CD8+IFN-gamma cells in pcDNA3-hMUC1-immunized animals was 30-fold higher than in the pcDNA3.1 group. Bioluminescent images showed tumor growth inhibition in pcDNA3-hMUC1 immunized animals up to 25 days after immunization. A good correlation (r2 = .9076: pcDNA3/hMUC1 group; r2 = .7428: pcDNA3.1 group) was observed between bioluminescence signals and tumor weights in two mice in each group. We conclude that optical bioluminescent imaging offers a useful means of monitoring the antitumor effects of cancer DNA immunization in living animals.     

Immunization with chlamydial plasmid protein pORF5 DNA vaccine induces protective immunity against genital chlamydial infection in mice

To validate the immune protective efficacy of pORF5 DNA vaccine and to analyze potential mechanisms related to this protection. In this study, pORF5 DNA vaccine was constructed and evaluated for its protective immunity in a mouse model of genital chlamydial infection. Groups of BALB/c mice were immunized intranasally with pORF5 DNA vaccine. Humoral and cell mediated immune responses were evaluated. The clearance ability of chlamydial challenge from the genital tract and the chlamydia-induced upper genital tract gross pathology and histopathological characterization were also detected. The results showed that the total and the IgG2a anti-pORF5 antibody levels in serum were significantly elevated after pcDNA3.1-pORF5 vaccination, as were the total antibody and IgA levels in vaginal fluids. pcDNA3.1-pORF5 induced a significantly high level of Th1 response as measured by robust gamma interferon (IFN-γ). Minimal IL-4 was produced by immune T cells in response to the re-stimulation with pORF5 protein or the inactive elementary body in vitro. pcDNA3.1-pORF5-vaccinated mice displayed significantly reduced bacterial shedding upon a chlamydial challenge and an accelerated resolution of infection. 100% of pcDNA3.1-pORF5 vaccinated mice successfully resolved the infection by day 24. pcDNA3.1-pORF5-immunized mice also exhibited protection against pathological consequences of chlamydial infection. The stimulated index was significantly higher than that of mice immunized with pcDNA3.1 and PBS (P<0.05). Together, these results demonstrated that immunization with pORF5 DNA vaccine is a promising approach for eliciting a protective immunity against a genital chlamydial challenge.     

口蹄疫病毒多基因重组质粒在BHK-21细胞中的表达

利用定点突变的原理,获得包含有口蹄疫病毒P1,2A,3C及部分2B编码区的目的基因片段,KpnⅠ和XbaⅠ双酶切后,定向克隆于真核表达质粒载体pcDNA3.1（+）,经筛选、鉴定及DNA序列分析后,将重组质粒pcDNA3.1/P12X3C转染BHK-21细胞,通过双抗体夹心ELISA方法和间接免疫荧光标记方法,检测细胞中表达的口蹄疫病毒抗原。结果表明,口蹄疫病毒基因片段正确克隆到真核表达质粒载体上,重组质粒pcDNA3.1/P12X3C可在BHK-21细胞中表达FMDV目的蛋白。     

Th1类细胞因子对pHCV-C重组体诱生免疫应答的增强作用

为了探索Th1类细胞因子IL-2和IL-12对含丙型肝炎病毒(HCV)核心(C)基因重组体诱生的免疫应答的增强作用,本文构建了包含HCVC基因片段的重组质粒pHCV-C,将其单独或与Th1类细胞因子表达质粒pIL-2或pIL-12共免疫BALB/c小鼠,ELISA法检测免疫小鼠血清中的HCVC特异性抗体滴度;以pHCV-C转染SP2/0细胞,经筛选稳定表达HCVC抗原者(SP2/0-HCV-C)为靶细胞,     

MAGE-3 DNA疫苗的构建及其免疫效果的观察

通过RT PCR方法扩增MAGE 3cDNA ,以pcDNA3 1+为载体 ,构建重组表达质粒pcDNA3 1 MAGE 3。重组质粒用脂质体转染鼠B16细胞 ,经RT PCR、细胞免疫染色及免疫印迹法鉴定转化细胞中MAGE 3的表达。以 10 0 μg质粒剂量肌肉注射接种小鼠 ,间隔 10天 ,共 3次 ,以空载体和PBS为对照。结果 ,重组质粒免疫的小鼠 ,其脾淋巴细胞对MAGE 3阳性靶细胞的杀伤活性为 51 0 8± 7 41% ,与空载体组 (8 44± 1 89% )及PBS组 (5 76± 1 75% )相比 ,差异有显著性 (P <0 0 1) ,而对MAGE 3阴性靶细胞的杀伤活性分别为 8 2 1± 1 65% ,7 68± 1 56%和 5 13±1 42 % ,其差异无显著性 ;MAGE 3DNA疫苗组免疫血清 1∶15稀释时能检测到抗MAGE 3抗体 ,脾细胞培养上清中Th1类细胞因子IFN γ、IL 2水平明显升高 ,外周血中CD4+、CD8+T细胞也提高 ,小鼠肿瘤的生长速度明显减慢 ,与对照组相比 ,差异显著 (P <0 0 1)。说明MAGE 3重组质粒免疫小鼠可以诱导小鼠产生特异性的体液和细胞免疫应答     

SIV DNA vaccine co-administered with IL-12 expression plasmid enhances CD8 SIV cellular immune responses in cynomolgus macaques

Current evidence suggests that a strong induced CD8 human immunodeficiency virus type 1 (HIV-1)-specific cell mediated immune response may be an important aspect of an HIV vaccine. The response rates and the magnitude of the CTL responses induced by current DNA vaccines in humans need to be improved and cellular immune responses to DNA vaccines can be enhanced in mice by co-delivering DNA plasmids expressing immune modulators. Two reported to work well in the mouse systems are interleukin (IL)-12 and CD40L. We sought to compare these molecular adjuvants in a primate model system. The cDNA for macaque IL-12 and CD40L were cloned into DNA vectors. Groups of cynomolgus macaques were immunized with 2 mg of plasmid expressing SIVgag alone or in combination with either IL-12 or CD40L. CD40L did not appear to enhance the cellular immune response to SIVgag antigen. However, more robust results were observed in animals co-injected with the IL-12 molecular adjuvant. The IL-12 expanded antigen-specific IFN-gamma positive effector cells as well as granzyme B production. The vaccine immune responses contained both a CD8 component as well a CD4 component. The adjuvanted DNA vaccines illustrate that IL-12 enhances a CD8 vaccine immune response, however, different cellular profiles.     

幽门螺杆菌Lpp20-IL2核酸疫苗免疫活性

【目的】观察pcDNA3.1(+)/Lpp20-IL2免疫C57BL/6小鼠后所产生的体液免疫和细胞免疫应答水平,为研制高效、新型的幽门螺杆菌核酸疫苗提供实验依据。【方法】构建pcDNA3.1(+)/Lpp20-IL2重组载体,并转染HeLa细胞,用Western-blot观察鉴定其在真核细胞得到表达后免疫C57BL/6小鼠,ELISA间接法测定小鼠血清中抗Lpp20IgG抗体水平,ELISA双抗体夹心法检测脾淋巴细胞培养上清中IFN-γ、IL4水平,MTT比色法检测脾淋巴细胞增殖反应,免疫荧光组化法检测Lpp20蛋白在小鼠肌肉组织中的表达情况。【结果】成功构建了pcDNA3.1(+)/Lpp20-IL2真核表达载体,且重组质粒能在HeLa细胞内有效表达目的蛋白;小鼠接种pcDNA3.1(+)/Lpp20-IL2核酸疫苗后能产生特异性IgG抗体,8w后ELISA测定血清抗体A450值明显升高。核酸疫苗pcDNA3.1(+)/Lpp20-IL2免疫组小鼠脾淋巴细胞经特异性抗原刺激后,培养上清中IFN-γ、IL4含量明显升高。pcDNA3.1(+)/Lpp20-IL2和pcDNA3.1(+)/Lpp20核酸疫苗组小鼠脾淋巴细胞经特异性抗原刺激后,刺激指数明显高于空质粒组和PBS组。Lpp20蛋白在小鼠肌肉组织中能够有效表达。【结论】幽门螺杆菌Lpp20-IL2融合基因核酸疫苗和Lpp20单基因核酸疫苗均能刺激机体产生较强细胞免疫应答和体液免疫应答,且前者能诱导更强的细胞免疫应答。     

稳定携带H5亚型禽流感病毒候选DNA疫苗减毒沙门氏菌的构建及其免疫原性

采用PCR技术从重组质粒pVAX1-HA扩增出禽流感病毒JSGO(H5N1)株的血凝素(HA)基因,将其克隆入真核表达质粒pmcDNA3.1 中,获得重组表达质粒pmcDNA3.1-HA。通过电穿孔转化法将重组质粒转入减毒鼠伤寒沙门氏菌SL7207*,构建成功携带DNA疫苗的重组沙门氏菌SL7207*(pmcDNA3.1-HA)。经体内体外试验证实,重组质粒pmcDNA3.1-HA在沙门氏菌中的稳定性显著高于pcDNA3.1-HA。将重组菌SL7207*(pmcDNA3.1-HA)和SL7207*(pcDNA3.1-HA)分别以2×109CFU剂量两次口服免疫BALB/c小鼠,免疫小鼠可产生针对禽流感病毒HA蛋白的黏膜抗体。重组菌以5×109CFU剂量两次口服免疫试验鸡,免疫鸡的小肠样品中可测到针对禽流感病毒HA蛋白的黏膜抗体,且SL7207*(pmcDNA3.1-HA)免疫组的抗体效价高于SL7207*(pcDNA3.1-HA)免疫组。免疫保护试验结果显示,SL7207*(pmcDNA3.1-HA)和SL7207*(pcDNA3.1-HA)免疫组的免疫保护率均与空载体组之间存在显著性差异(P<0.05),且SL7207*(pmcDNA3.1-HA)免疫组的保护率较SL7207*(pcDNA3.1-HA)免疫组提高了22.6%,说明稳定携带H5亚型禽流感病毒DNA疫苗的减毒沙门氏菌具有良好的免疫原性和免疫保护性。     

不同佐剂对preS2／S乙型肝炎疫苗免疫原性的影响

目的探讨不同佐剂对preS2／S乙型肝炎疫苗免疫原性的影响。方法将BALB／C小鼠随机分为6组：铝屯剂组（S＋AI和S2／S＋A1）、细胞因子佐剂组（S2／S＋CKl、S2／S＋CK2和S2／S＋CK3）及阴性对照组（NG）,用相应抗原且腔免疫各组小鼠,1mL／只,分别于免疫后2、4和6周采血,分离血清,ELISA法检测血清中抗-HBs抗体和preS2圭体水平;wsT一1法检测淋巴细胞增殖情况。结果免疫后2周,铝佐剂组（S＋A1和S2／S＋A1）抗体水平较高,阳转i达100％,而细胞因子佐剂组抗-HBs抗体水平均较低,S2／S＋CK2及S2／S＋CK3组抗体阳转率为0,与NG组比较2异无统计学意义（P〉0．05）;免疫后4周,细胞因子佐剂组抗-HBs抗体水平升高明显,铝佐剂组S2／S＋A1抗体水习显著高于S＋A1（P〈0．05）;免疫后6周,细胞因子佐剂组抗体水平高于铝佐剂组,其中S2／S＋CKl组抗体水平较高免疫后2周,各组小鼠血清中抗-preS2抗体均达到较高水平,各组间差异均无统计学意义（P〉0．05）;免疫后4月和6周,抗体水平均有所下降,但下降不明显;铝佐剂组S＋AI和S2／S＋A1抗-preS2抗体水平差异无统计学意义（P0．05）。免疫后4周,各组小鼠淋巴细胞刺激指数铝佐剂组（S＋A1和S2／S＋A1）低于细胞因子佐剂组,且差异有统t学意义（P〈0．05）,其中S2／S＋CKl组淋巴细胞增殖水平较高。结论不同佐剂的preS2／S乙型肝炎疫苗均能诱导较高水平的抗-HBs和抗-preS2抗体,细胞因子佐剂组淋巴细胞增殖水平显著高于铝佐剂组,为新型乙型肝炎疫l和治疗性乙型肝炎疫苗的研究提供了实验依据。