Prion疾病疫苗研究策略

朊病毒病是一类侵袭人类及多种动物中枢神经系统的致死性退行性脑病,目前缺乏有效的预防和治疗方法。朊病毒病的重组蛋白亚单位疫苗、DNA疫苗、合成肽疫苗、病毒样颗粒疫苗、树突状细胞疫苗、黏膜免疫疫苗等已取得一定进展,但现有的免疫策略仅能部分克服免疫耐受,诱导较低或中等滴度的抗体,对PrPSc感染动物模型只能提供部分保护,Prion疫苗研究任重而道远。     

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.     

丙型肝炎病毒（HCV）实验性疫苗的研究进展

丙型肝炎病毒是引起输血相关肝炎及慢性肝炎、肝硬化、肝癌的主要病原,目前尚无有效的治疗与预防手段。本文将综述HCV感染所引起的机体免疫应答及近年来实验性疫苗（主要是DNA疫苗、病毒载体疫苗及联合疫苗）的研究进展。     

诺如病毒疫苗研究概况

诺如病毒（norovirus,NoV）是引发急性胃肠炎疾病的主要病原体之一。NoV易发生突变产生多种毒株,对人类健康造成严重威胁。由于缺乏成功的动物模型,抗NoV药物和疫苗的后续评价受到了限制,目前尚没有上市的疫苗用于NoV的预防。对NoV疫苗的研究进展进行了综述,重点阐述了病毒样颗粒（virus like particles,VLP）疫苗、病毒载体疫苗和基于P颗粒疫苗的研究现状和发展前景,以期为NoV疫苗的研发提供新思路。     

Whole inactivated SIV virion vaccines with functional envelope glycoproteins: safety,immunogenicity, and activity against intrarectal challenge

A novel type of whole inactivated simian immunodeficiency virus (SIV) virion vaccine immunogen with functional envelope glycoproteins was evaluated, without adjuvant, in rhesus macaques. Immunogens included purified inactivated virions of SIVmac239, a designed mutant of SIVmac239 with gp120 carbohydrate attachment sites deleted (SIVmac239 g4,5), and SIVmneE11S. The vaccines were noninfectious, safe, and immunogenic, inducing antibody responses and cellular responses, including responses by CD8+ lymphocytes. Interpretation of protective efficacy following intrarectal challenge was complicated by incomplete take of the challenge in some SIV na?ve controls.     

Infection of macaques with a molecular clone,SHIVSF33A2, provides evidence for tissue specific variants

Infection of rhesus macaques with chimeric simian-human immunodeficiency viruses (SHIV) is an established model to study acquired immunodeficiency syndrome (AIDS) pathogenesis. Such a controlled system allows for detailed analysis of the molecular determinants of viral pathogenesis in addition to studying host-specific immune responses that modulate disease progression. Furthermore, the use of a pathogenic molecular clone affords the opportunity to study both viral evolution within a host and to examine the generation of tissue specific variants. In this report we describe viral diversification within tissues of two rhesus macaques infected intravenously with the CXCR4-specific molecular clone SHIVSF33A2. Heteroduplex tracking analysis (HTA) was used to determine the complexity of viral DNA within distinct lymphoid tissues. Not surprising, heterogeneity of the proviral quasispecies in tissues obtained during the acute infection was limited. However, tissues obtained at necropsy harbored a more diverse and often different population of env variants. As the inoculating virus is a molecular clone, the variants generated are likely due to the presence of tissue specific selective forces rather than a founder's effect.     

Effect of vaccination with recombinant modified vaccinia virus Ankara expressing structural and regulatory genes of SIV(macJ5) on the kinetics of SIV replication in cynomolgus monkeys

The efficacy of a multicomponent vaccination with modified vaccinia Ankara constructs (rMVA) expressing structural and regulatory genes of simian immunodeficiency virus (SIV(mac251/32H/J5)) was investigated in cynomolgus monkeys, following challenge with a pathogenic SIV. Vaccination with rMVA-J5 performed at week 0, 12, and 24 induced a moderate proliferative response to whole SIV, a detectable humoral response to all but Nef SIV antigens, and failed to induce neutralizing antibodies. Two months after the last boost, the monkeys were challenged intravenously with 50 MID50 of SIV(mac251). All control monkeys, previously inoculated with non-recombinant MVA, were infected by week two and seroconverted by weeks four to eight. In contrast a sharp increase of both humoral and proliferative responses at two weeks post-challenge was observed in vaccinated monkeys compared to control monkeys. Although all vaccinated monkeys were infected, vaccination with rMVA-J5 appeared to partially control viral replication during the acute and late phase of infection as judged by cell- and plasma-associated viral load.     

DNA疫苗接种的安全性

DNA疫苗的安全性问题主要有三个方面：转入体内的DNA有可能整合到宿主细胞基因组上,使宿主细胞抑癌基因失活或癌基因活化,使宿主细胞转化成癌细胞;外源抗原持续表达产生的不良后果;质粒DNA诱导的自身免疫反应。本综合近年来有关献对DNA疫苗安全性的研究作一概括性介绍。     

Expression of the vesicular stomatitis virus membrane glycoprotein gene in Bacillus subtilis

Abstract The molecularly cloned gene encoding the vesicular stomatitis virus (VSV) membrane glycoprotein G was modified and joined to a Bacillus subtilis secretion vector constructed from the plasmid pUB110 and containing the promoter and signal sequence regions of the α-amylase (a secretory protein) gene from Bacillus amyloliquefaciens . The regions encoding the NH₂-terminal signal peptide and the COOH-terminal hydrophobic transmembrane domains of the VSV gene were deleted to facilitate the secretion of the G protein in soluble form. The truncated G protein was found to be expressed in B. subtilis . The expression level was low, probably due to rapid proteolytic degradation of the protein and, contrary to what was expected, almost all of the protein remained cell-associated.     

Immunogenicity of a DNA prime and recombinant adenovirus boost regime significantly varies between rhesus macaques of Chinese and Indian origins

BACKGROUND: Due to an ever increasing shortage of rhesus macaques of Indian origin (InR) that have been generally used for preclinical AIDS vaccine trials in non-human primates, demand is rising for Chinese rhesus macaques (ChR). However, the immunogenicity of an AIDS vaccine candidate has not been compared in parallel in both rhesus macaque subspecies. METHODS: ChR and InR were immunized with SIV/HIV DNA and adenovirus vaccine and their immune responses to SIV and HIV evaluated. RESULTS: SIV Gag- and Env-specific T-cell responses and SIV-specific lymphoproliferative responses measured in ChR were significantly weaker than those in InR (P < 0.05). By contrast, antibody responses to SIV Env, Tat, and Nef in ChR were stronger than those in InR (P < 0.05). CONCLUSIONS: Immunogenicity of an AIDS vaccine can vary significantly depending on the geographic origin implying genetic differences of macaques. This must be considered when describing and interpreting results of such vaccine studies.     

结核分枝杆菌Ag85A口服脂质体DNA疫苗安全性的初步验证

对重组pcDNA3.1＋/Ag85A DNA阳离子脂质体疫苗的安全性进行初步评价,为临床经口接种DNA疫苗提供理论和实验依据。取质粒存在最丰富的2个部位,即脾、小肠,提取基因组中DNA,并以此为模板进行PCR扩增。分析质粒重组体是否与基因组DNA整合,同时将受试动物实验组与对照组在受试期间体重、食量、一般活动等方面比较;受试小鼠脏器重量与对照组进行比较。结果显示,质粒重组体并未与基因组DNA整合,同时受试动物实验组与对照组之间,无论受试期还是恢复期之间体重、食量、一般活动等方面未见明显改变。受试小鼠脏器重量与对照组相比,无明显差别,从而证明脂质体pcDNA3.1＋/Ag85A DNA未与宿主基因组整合,间接说明pcDNA3.1＋/Ag85A DNA疫苗对免疫动物并没有潜在的致癌作用。     

A vaccine strategy utilizing a combination of three different chimeric vectors which share specific vaccine antigens

A large number of recombinant of viral and bacterial systems have been engineered as vectors to express foreign genes for vaccination and/or gene therapy. A common problem is the immune response to the vector itself. The presence of anti-vector immune responses may preclude sufficient 'priming' or immunogenicity if pre-existing immune responses are present, or they may impair optimal 'boosting' upon repeated immunization or delivery with the same vector. To circumvent this problem we developed a strategy using different chimeric vectors which share only the expression of common specific antigens desired for immunization. This approach not only has the advantage of avoiding increased anti-vector responses, but allows the use of combinations of vectors which could subsequently present the same or related antigen differently to the immune system as well as at alternative sites to induce the optimal type of immunity against the pathogen of interest.