共表达siRNA和hIL-12的新型乙肝多表位DNA疫苗的研究

目的 构建含有靶向乙肝表面抗原(HBsAg)基因的siRNA、乙肝复合多表位抗原基因和hIL-12共质粒表达的新型DNA疫苗,并在HepG2细胞中检测siRNA的效果以及各基因的表达。方法 设计并合成复合多表位HBV抗原基因,将其与增强型绿色荧光蛋白（EGFP）基因融合克隆进真核表达载体pVAX1的多克隆位点中,同时将带CMV启动子的完整hIL-12表达单元克隆进载体的BspH I位点之间,再设计并合成乙肝siRNA表达单元,将其克隆进载体的Mlu I位点之间,得到真核三元共表达重组质粒pVAX1-siHB-HB-EGFP-hIL12。以该重组质粒瞬时转染人肝癌细胞系HepG2,通过EGFP的荧光标记观察多表位抗原的表达,以ELISA测定培养细胞上清中hIL-12的表达,以rtPCR检测siRNA对HBsAg基因的沉默效果。结果 经酶切鉴定和测序证实共表达siRNA、hIL-12的HBV 多表位DNA疫苗构建成功。转染细胞中检测到绿色荧光,证实抗原表达;转染后48 h hIL-12的检出量为1 289 pg/mL细胞上清,72 h检出量为1 712 pg/mL细胞上清;转染后HBsAg表达量明显降低,证实siRNA效果良好。结论 成功构建乙肝复合多表位抗原基因与siRNA、hIL-12共质粒表达的DNA疫苗,并能在真核细胞中有效表达抗原与hIL-12基因,而且siRNA对HBsAg显示出明显的沉默效果。我们的工作为进一步研究该复合型DNA疫苗抗HBV的治疗效果打下基础。     

IL-12增强HBV融合抗原DNA疫苗在小鼠诱导的细胞免疫应答

乙型肝炎病毒(hepatitis B virus,HBV)极易形成慢性感染,主要机制在于感染者不能产生强有力的细胞免疫应答以清除病毒[1].慢性HBV感染者体内虽然存在HBV抗原特异性T淋巴细胞,但对HBV抗原的反应性较低.研究发现,增强这类T淋巴细胞的反应性,可以促进HBV的清除[2].     

DNA疫苗在肌内编码抗原并与免疫原性相关

该研究证明了DNA疫苗注射后在肌肉组织中产生了病毒抗原,并用黄病毒系统检验了其在小鼠中与抗体产生的关系。为达到抗原生产的检测性水平,作者使用了无针注射器,并用夹心酶联免疫吸附法检查了10％的四头肌匀浆物中的病毒抗原,比较了抗登革1型(名为pcD1ME)、     

IL-12增强流感血凝素DNA疫苗在小鼠中抗流感作用

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。     

以猪IgG重链恒定区为抗原载体的抗口蹄疫病毒DNA疫苗的研制

口蹄疫(Foot-and-Mouth Disease, FMD)是当今世界上最为严重的家畜传染病之一,主要危害猪、牛、羊等偶蹄动物.FMD的致病原为FMD病毒(FMDV),属小RNA病毒科口蹄疫病毒属,有A、O、C、SATⅠ、SATⅡ、SATⅢ及AsiaⅠ共7个血清型.FMDV结构较简单,完整的病毒颗粒由4种结构蛋白VP1、VP2、VP3及VP4各60个拷贝构成的衣壳包裹一条单股正链RNA组成,其中VP1是主要的抗原蛋白[1].     

鸭乙型肝炎病毒核心抗原DNA 疫苗的构建及其诱导的体液免疫应答

为研究鸭乙型肝炎病毒核心抗原( DHBcAg) 真核表达质粒的免疫原性, 分析DHBcAg DNA 疫苗诱导的体液免疫应答, 首先借助生物信息学方法对鸭乙型肝炎病毒( DHBV) Core 基因编码的氨基酸序列进行亲疏水性分析, 分别构建DHBcAg 全基因( E-DHBc263) 及去除疏水性序列的DHBcAg 片段( E-DHBc180) 的真核表达质粒, 间接免疫荧光检测结果显示可在COS7 细胞内表达。进一步构建原核表达质粒p-DHBc263 和p-DHBc180, 仅p-DHBc180 可表达蛋白, 纯化后作为酶联免疫吸附试验( ELISA) 包被抗原, 用于DHBcAb 的检测。分别用E-DHBc263 和E-DHBc180 免疫小鼠, 采用间接ELISA 检测DHBcAb。结果显示, E-DHBc180 可诱导免疫小鼠产生DHBcAb 免疫应答, 加强免疫后效价可达1∶100 ～1∶400。结果提示, E-DHBc180 可作为DHBcAg DNA 疫苗, 在DHBV 感染鸭模型中评价其效果。     

口服结核Ag85A-CD226 DNA疫苗在小鼠脾与肠道的表达水平检测

目的了解结核Ag85A-CD226 DNA疫苗经灌胃方式接种小鼠后在脾淋巴细胞与肠道的表达情况。方法将构建的pcDNA3.1-Ag85A-CD226、pcDNA3.1-Ag85A和pcDNA3.1-CD226真核表达质粒转化DH5α感受态大肠杆菌,扩增并提取纯化质粒,用脂质体包裹制成DNA疫苗。经灌胃方式将制备的DNA疫苗接种C57BL/6小鼠,设置Ag85A-CD226疫苗组、Ag85A疫苗组、CD226疫苗组、pcDNA3.1质粒组和生理盐水对照组。采用间接免疫荧光法检测Ag85A和CD226在肠道的表达。采用流式细胞术检测脾CD4+T细胞、CD8+T细胞和NK细胞的CD226表达。结果 CD226在Ag85A-CD226疫苗组脾脏CD4+T细胞和NK细胞的表达均明显强于Ag85A疫苗组、CD226疫苗组、pcDNA3.1质粒组和生理盐水对照组,差异具有统计学意义(P0.01);CD226在Ag85A-CD226疫苗组脾脏CD8+T细胞的表达明显强于Ag85A疫苗组、pcDNA3.1质粒组和生理盐水对照组,差异具有统计学意义(P0.01),与CD226疫苗组相比虽有所增加,但差异无统计学意义(P0.05)。CD226在Ag85A-CD226疫苗组小肠派氏淋巴结表达明显强于Ag85A疫苗组、CD226疫苗组、pcDNA3.1质粒组和生理盐水对照组,差异具有统计学意义(P0.01)。Ag85A只在Ag85A-CD226疫苗组和CD226疫苗组小肠固有层表达,且在Ag85A-CD226疫苗组的表达明显强于CD226疫苗组,差异具有统计学意义(P0.01)。结论 Ag85A-CD226 DNA疫苗接种后,CD226在脾淋巴细胞和肠道表达增强,Ag85A在肠道表达增强,CD226的表达增加会增强Ag85A在肠道的表达水平。     

突变型乙肝病毒核心抗原DNA疫苗的体外表达

目的:构建突变型核心抗原核酸疫苗,观察该核酸疫苗在体外蛋白的表达.方法:采用基因工程定点突变技术,构建5种突变型核酸疫苗,分别去除乙肝病毒核心抗原N端的第1、2位氨基酸,命名为M12,去除3、4位氨基酸命名为M34以及去除5、6位的氨基酸命名为M56,用上述构建的核酸疫苗与野生型HBc核酸疫苗(pJW4303/Hc)及空载体质粒pJW4303分别用脂质体转染293T细胞,应用蛋白印迹法检测核心蛋白的表达.结果:经过pstl和BgI双酶切和测序鉴定结果突变型核心抗原核酸疫苗构建成功.在去除2个氨基酸的核酸疫苗结果中显示:野生型pJW4303/HBe、M12、及M56体外转染293T细胞后,在细胞上清和裂解中能很好的表达,而M34上清未见表达,仅裂解中可见极少量疑似表达条带;在原有基础上分别去除第3位和第4住氨基酸,命名为M3和M4,结果显示M3上清未见表达,裂解液中可见少量表达,而M4在上清和裂解中均可见明显的表达.结论:去除核心抗原N端第3位的氨基酸(M3)可以明显影响核心抗原的表达,HBcAg氨基端第3位氨基酸对蛋白的表达可能起到重要的作用.     

候选结核疫苗的评价模型

卡介苗作为目前唯一批准使用的预防结核疫苗,由于无法提供充足的保护力,目前结核病依然是严重危害人类健康的传染病,因此筛选优质候选疫苗迫在眉睫。所有候选疫苗进入临床试验前必须评价其安全性、免疫原性以及有效性。评价结果在一定程度上也预示候选疫苗在人体的免疫作用,也是目前评价候选疫苗是否优于传统卡介苗的依据。论述候选结核疫苗临床试验前所使用的体内和体外评价模型。对评价模型的充分认识将提高候选疫苗评价数据对人体临床试验的预测意义,也可更具体地执行实验动物的替代、减少和优化原则。     

Tuberculosis Vaccines and Prevention of Infection

SUMMARY

Tuberculosis (TB) is a leading cause of death worldwide despite the availability of effective chemotherapy for over 60 years. Although Mycobacterium bovis bacillus Calmette-Guérin (BCG) vaccination protects against active TB disease in some populations, its efficacy is suboptimal. Development of an effective TB vaccine is a top global priority that has been hampered by an incomplete understanding of protective immunity to TB. Thus far, preventing TB disease, rather than infection, has been the primary target for vaccine development. Several areas of research highlight the importance of including preinfection vaccines in the development pipeline. First, epidemiology and mathematical modeling studies indicate that a preinfection vaccine would have a high population-level impact for control of TB disease. Second, immunology studies support the rationale for targeting prevention of infection, with evidence that host responses may be more effective during acute infection than during chronic infection. Third, natural history studies indicate that resistance to TB infection occurs in a small percentage of the population. Fourth, case-control studies of BCG indicate that it may provide protection from infection. Fifth, prevention-of-infection trials would have smaller sample sizes and a shorter duration than disease prevention trials and would enable opportunities to search for correlates of immunity as well as serve as a criterion for selecting a vaccine product for testing in a larger TB disease prevention trial. Together, these points support expanding the focus of TB vaccine development efforts to include prevention of infection as a primary goal along with vaccines or other interventions that reduce the rate of transmission and reactivation.     

恶性肿瘤组织中结核杆菌DNA的检测

目的　探讨结核杆菌感染与恶性肿瘤的关系。方法　采用多聚酶链反应（ＰＣＲ） 技术检测两种恶性肿瘤组织中结核杆菌ＤＮＡ（ＴＢ－ ＤＮＡ） 。结果４１ 例恶性肿瘤组织中检出ＴＢ－ ＤＮＡ 阳性患者８ 例,占１９．５ ％ ,且ＴＢ－ＤＮＡ 阳性患者肿瘤发病部位基本与结核病的好发部位一致。结论 结核杆菌感染可能与一些恶性肿瘤存在特殊相关性。     

The Adjuvant Effects of High-Molecule-Weight Polysaccharides Purified from Antrodia cinnamomea on Dendritic Cell Function and DNA Vaccines

The biological activity of the edible basidiomycete Antrodia cinnamomea (AC) has been studied extensively. Many effects, such as anti-cancer, anti-inflammatory, and antioxidant activities, have been reported from either crude extracts or compounds isolated from AC. However, research addressing the function of AC in enhancing immunity is rare. The aim of the present study is to investigate the active components and the mechanism involved in the immunostimulatory effect of AC. We found that polysaccharides (PS) in the water extract of AC played a major role in dendritic cell (DC) activation, which is a critical leukocyte in initiating immune responses. We further size purified and identified that the high-molecular weight PS fraction (greater than 100 kDa) exhibited the activating effect. The AC high-molecular weight PSs (AC hmwPSs) promoted pro-inflammatory cytokine production by DCs and the maturation of DCs. In addition, DC-induced antigen-specific T cell activation and Th1 differentiation were increased by AC hmwPSs. In studying the molecular mechanism, we confirmed the activation of the MAPK and NF-κB pathways in DCs after AC hmwPSs treatment. Furthermore, we demonstrated that TLR2 and TLR4 are required for the stimulatory activity of AC hmwPSs on DCs. In a mouse tumor model, we demonstrated that AC hmwPSs enhanced the anti-tumor efficacy of the HER-2/neu DNA vaccine by facilitating specific Th1 responses. Thus, we conclude that hmwPSs are the major components of AC that stimulate DCs via the TLR2/TLR4 and NF-κB/MAPK signaling pathways. The AC hmwPSs have potential to be applied as adjuvants.     

食管癌前细胞DNA、端粒酶含量及多基因表达产物的定量检测

为探讨食管癌高发区人群食管上皮癌变过程中的早期分子改变及早期癌变机理.应用流式细胞术和免疫荧光技术及碘化丙啶DNA荧光染色方法,对食管上皮癌前细胞的DNA含量、端粒酶含量和多个基因p53、p16、cyclin D1蛋白质表达进行了定量检测.检测结果发现,DNA含量在癌变形成时明显增加,异倍体率为87.9%;p53蛋白积聚发生在癌变早期,在癌细胞组的阳性率为100%（5/5）;抑癌基因p16在癌变早期有明显缺失;癌基因cyclin D1及端粒酶阳性率在癌细胞组都为100%（分别为6/6,7/7）.研究结果表明：在癌变早期,DNA含量及异倍体率增加,癌基因cyclin D1表达增高,抑癌基因p16缺失及p53蛋白积聚,端粒酶含量也明显增高,在癌形成时已有多个分子事件发生.     

基于三链核酸的DNA计算

一种研究DNA计算的新模型——三链DNA计算模型在本文中提出。此模型是在近年三链核酸的研究成果的基础上建立的。并应用于求解可满足性问题（SAT）,这是一个困难的NP-完全问题。不同于以住的DNA计算方法,基于三链核酸的分子算法通过寡聚脱氧核苷酸（ODN）在RecA蛋白的介导下与同源的双链DNA匹配成三链DNA进行基本的运算,这样可以有效减少计算中的错误。依据分子生物学的实验方法,该算法切实可行并且有效。     

DNA疫苗安全性的策略探究

DNA疫苗安全性问题主要来自DNA疫苗元件和疫苗工程菌,包括DNA疫苗与宿主基因组整合、接种后诱导宿主产生免疫耐受和自身免疫疾病、抗性基因的转移问题、疫苗中内毒素和抗生素及其他有害物质残留问题、宿主菌体内DNA复制与纯化过程中基因稳定性问题。本文针对这些问题进行策略上的探讨,为进一步开发安全的DNA疫苗提供帮助。     

Triple Negative Breast Cancers Have a Reduced Expression of DNA Repair Genes

DNA repair is a key determinant in the cellular response to therapy and tumor repair status could play an important role in tailoring patient therapy. Our goal was to evaluate the mRNA of 13 genes involved in different DNA repair pathways (base excision, nucleotide excision, homologous recombination, and Fanconi anemia) in paraffin embedded samples of triple negative breast cancer (TNBC) compared to luminal A breast cancer (LABC). Most of the genes involved in nucleotide excision repair and Fanconi Anemia pathways, and CHK1 gene were significantly less expressed in TNBC than in LABC. PARP1 levels were higher in TNBC than in LABC. In univariate analysis high level of FANCA correlated with an increased overall survival and event free survival in TNBC; however multivariate analyses using Cox regression did not confirm FANCA as independent prognostic factor. These data support the evidence that TNBCs compared to LABCs harbour DNA repair defects.