Persistent measles virus infection enhances major histocompatibility complex class I expression and immunogenicity of murine neuroblastoma cells

The effect of persistent measles virus infection on the expression of major histocompatibility complex (MHC) class I antigens was studied. Mouse neuroblastoma cells C1300, clone NS20Y, were persistently infected with the Edmonston strain of measles virus. The persistently infected cell line, NS20Y/MS, expressed augmented levels of both H-2K^k and H-2D^d MHC class I glycoproteins. Activation of two interferon(IFN)-induced enzymes, known to be part of the IFN system: (2–5)oligoadenylate synthetase and double-stranded-RNA-activated protein kinase, was detected. Measles-virus-infected cells elicited cytotoxic T lymphocytes that recognized and lysed virus-infected and uninfected neuroblastoma cells in an H-2-restricted fashion. Furthermore, immunization of mice with persistently infected cells conferred resistance to tumor growth after challenge with the highly malignant NS20Y cells. The rationale for using measles virus for immunotherapy is that most patients develop lifelong immunity after recovery or vaccination from this infection. Patients developing cancer are likely to have memory cells. A secondary response induced by measles-virus-infected cells may therefore induce an efficient immune response against non-infected tumour cells.     

基因转移与肿瘤基因工程疫苗

综述了近年来有关利用基因转移技术修饰肿瘤细胞制备肿瘤基因工程疫苗的最新研究进展,着重阐述了逆转录病毒载体介导的基因转移及其安全性;归纳了目前可用于肿瘤基因工程疫苗的各种目的基因的特点及作用并对这类肿瘤疫苗制备过程中所存在的问题进行了分析.     

多聚唾液酸对L-天冬酰胺酶的修饰及修饰酶特性研究

来源于大肠杆菌 (Ｅ .ｃｏｌｉ)的Ｌ 天冬酰胺酶是治疗淋巴性白血病和恶性淋巴肿瘤的有效酶制剂 ,已应用于临床。该酶与其他蛋白质类药物一样 ,在临床应用中存在两个常见问题 :一是酶制剂在体内易被降解 ,导致半衰期短 ;二是免疫原性。为了解决上述问题 ,人们用亲水性的大分子如血清蛋白、右旋糖苷和单甲氧基聚乙二醇 (ｍＰＥＧ)对该酶进行修饰。其中ｍＰＥＧ[1] 修饰后的Ｌ 天冬酰胺酶的抗原抗体结合能力完全消失 ,免疫原性下降 ,且体内半衰期延长 ;但酶活力只有天然酶的 8%～ 14% ,且ｍＰＥＧ在人体组织中无法降解 ,目前尚难评估长期使用…     

Homology modeling threedimensional structure of AnxB1 and reducing its immunogenicity by sequence-deleted mutagenesis

AnxB1,a novel annexin previously isolated from Cysticercus cellulose,shows high thrombi affinity and anticoagulant activity in vivo.In order to investigate the relationship between structure and biological function,a predicted three-dimensional(3D)model of AnxB1 was generated by homology modeling.This model contains four homologous internal-domains and the Cα trace of domain Ⅰ,Ⅱ and IV shows high similarity.Based on the structure characterization,four sequence-deleted mutants were constructed and expressed as GST fusion proteins in E.coli.Two of the mutants,GST-M3 and GST-M4 reserved high anticoagulant activity(p＜0.01 vs.GST).Furthermore,compared with the wild type GST-AnxB1,the immunogenicity of GST-M3 and GST-M4 was reduced significantly(p＜0.01)and the molecular weight was lowered to 27 kD and 34 kD,respectively.These observations laid a solid foundation for further study on developing new thrombolytic agents with higher efficiency and lower side effect.     

苦马豆素的免疫原性及抗肿瘤研究进展

苦马豆素(Swainsonine,SW)属吲哚里西啶生物碱,是疯草(Locoweed)的主要有毒成分。SW主要是通过抑制溶酶体α-甘露糖甙酶Ⅰ和高尔基氏体α-甘露糖甙酶Ⅱ的活性使家畜中毒。除了研究SW的毒性外,学者们还根据其可抑制α-甘露糖甙酶的活性,对其抗肿瘤活性进行了研究,发现其可抑制肿瘤细胞的转移和实体瘤在小鼠和肿瘤患者身上的生长,刺激宿主的免疫系统,增强免疫细胞对肿瘤的杀伤活性。近来又有人从免疫学角度研究了SW的免疫原性。本文主要从SW的免疫原性及其抗肿瘤活性进行了综述。     

鸡白细胞介素2增强传染性法氏囊病病毒多聚蛋白DNA疫苗免疫原性的研究

鸡白细胞介素 2(IL-2)基因是新近被确定的非哺乳类IL-2基因。将鸡白细胞介素2(IL-2)基因和传染性法氏囊病病毒 (IBDV)多聚蛋白基因 (VP2/VP4/VP3)分别插入真核表达载体pCI的CMV启动子下游 ,制备DNA疫苗 ,免疫 14日龄SPF鸡 ,14d后二免 ,二免后 3d攻击标准强毒株。结果表明共注射鸡IL 2质粒能明显增强DNA疫苗对强毒攻击 ,保护率达 80 % ;能增强DNA疫苗诱导的中和抗体效价 (P<0.05 ) ;能显著促进鸡胸腺、脾脏和外周血液T淋巴细胞及法氏囊B淋巴细胞增殖反应(P<0.05)。这些结果提示鸡IL 2能明显增强IBDV多聚蛋白DNA疫苗的免疫原性 ,是一种优良的禽类DNA疫苗佐剂。     

TPO模拟肽与人IgG1 Fc片段的融合表达及其生物学特性研究

依据本室获得的人TPO模拟肽序列,合成了该模拟肽的DNA序列,分别连接至4种不同长度的人IgG1 Fc基因片段的5′端,并克隆至质粒表达载体pET28a( ),转化大肠杆菌BL21（DE3）,筛选获得了4种重组工程菌,其中3种分别高效表达了3种不同长度的融合蛋白,而第4种工程菌未表达,表达的3种融合蛋白的分子量分别约为28kD,12kD和12kD。表达量约占菌体蛋白总量的30％左右,纯化获得了3种TPO模拟肽融合蛋白,3种融合蛋白均有较好的体外活性,维持TPO依赖细胞Ba/F3-mp1生长的EC50分别为：13,10,10nmol/L,用血小板减少症小鼠动物模型,测定了它们的体内活性,3种融合蛋白均有升高血小板和缩短血小板恢复时间的功能,分别比TPO模拟肽活性提高了18,8,8倍,而对白细胞及红细胞无显著影响,分别用3种融合蛋白免疫BALB／c小鼠,均未刺激小鼠产生抗TPO模拟肽抗体,并显示了较好的应用潜力。     

嗜水气单胞菌溶血素基因的克隆表达及其类毒素的免疫原性分析

根据嗜水气单胞菌溶血素保护性抗原基因序列(GenBank Accession No. AF539467)设计一对引物, 以嗜水气单胞菌河北分离株基因组为模板, 经PCR扩增得到hly基因。序列分析表明, 该基因产物大小为1485 bp, 经测序与GenBank报道的多个嗜水气单胞菌hly基因序列一致性高于99%。将得到的hly基因定向克隆到原核表达载体pET-28a中构建原核重组质粒pET-28a- hly, 转化大肠杆菌 BL21(DE3)中, 得到重组菌株BL21(DE3)(pET-28a-hly), 经IPTG诱导后, SDS-PAGE分析可见一条56 kD的特异条带。Western blotting分析结果显示表达的Hly蛋白能与抗体发生特异性结合,说明其具有较好的免疫原性。将表达的溶血素蛋白制成类毒素疫苗免疫小鼠后, 具有较高的保护效力, 表明该类毒素疫苗有望作为预防由嗜水气单胞菌引起疾病的基因工程类毒素疫苗。     

毕赤酵母表达的含前S1、前S2和S表位乙肝表面抗原疫苗的制备和免疫原性研究

整合了乙肝表面抗原嵌合基因SS1和SS2的毕赤酵母工程菌株GS115-SS1S2经高密度发酵培养,甲醇诱导,抗原表达量达到300~600mg/L发酵液。SS1S2抗原经细胞破碎、硅胶吸附、疏水层析和凝胶过滤纯化,纯度达99%以上,每升培养物可收获纯化抗原82mg。纯化的SS1S2抗原经Al(OH)3吸附,在NIH小鼠中进行免疫效果评价。三组NIH雌性小鼠,分别腹腔接种2.5μg、0.625μg和0.156μgSS1S2疫苗或商品化的单S疫苗。部分小鼠在30天时采血,测定各疫苗组的ED50值。在SS1S2疫苗组,前S1、前S2和S抗原的ED50值分别为0.46、0.29和0.84μg,而S疫苗组S抗原的ED50为0.99μg。另一部分小鼠分别在7天和14天时采血,考察抗体阳转率与时间的关系。SS1S2疫苗前S1、前S2抗体阳转率在7d和14d时比S抗体的阳转率为高,提示前S抗体出现的时间较早。上述结果显示SS1S2疫苗比单S疫苗具有更好的免疫原性。     

DNA vaccination against foot-and-mouth disease via electroporation: study of molecular approaches for enhancing VP1 antigenicity

BACKGROUND: Foot-and-mouth disease virus (FMDV) affects susceptible livestock animals and causes disastrous economic impact. Immunization with plasmid expressing VP1 that contains the major antigenic epitope(s) of FMDV as cytoplasmic protein (cVP1) failed to elicit full protection against FMDV challenge. MATERIALS AND METHODS: In this study, mice were immunized via electroporation with four cDNA expression vectors that were constructed to express VP1 of FMDV, as cytoplasmic (cVP1), secreted (sVP1), membrane-anchored (mVP1) or capsid precursor protein (P1), respectively, to evaluate whether expression of VP1 in specific subcellular compartment(s) would result in better immune responses. RESULTS: Electroporation enhanced immune responses to vectors expressing cVP1 or P1 and expedited the immune responses to vectors expressing sVP1 or mVP1. Immunization of mice via electroporation with mVP1 cDNA was better than sVP1 or cVP1 cDNA in eliciting neutralizing antibodies and viral clearance protection. Vaccination with P1 cDNA, nonetheless, yielded the best immune responses and protection among all four cDNAs that we tested. CONCLUSIONS: These results suggest that the antigenicity of a VP1 DNA vaccine can be significantly enhanced by altering the cellular localization of the VP1 antigen. Electroporation is a useful tool for enhancing the immune responses of vectors expressing VP1 or P1. By mimicking FMDV more closely than that of transgenic VP1 and eliciting immune responses favorably toward Th2, transgenic P1 may induce more neutralizing antibodies and better protection against FMDV challenge.