共表达HPV16L1、L2、E6、E7蛋白的重组非复制型痘苗病毒构建及鉴定

目的构建共表达人乳头瘤病毒16型(HPV16)L1、L2、E6、E7蛋白的非复制型重组痘苗病毒人用疫苗株。方法以痘苗病毒为载体、利用同源重组技术筛选共表达HPV16L1、L2、E6、E7蛋白的重组痘苗病毒并对其进行鉴定。结果该病毒在CEF细胞上连续传至第15代,经斑点杂交结果表明重组病毒基因组中有L1、L2、E6、E7基因插入;经WesternBlot检测,重组病毒能稳定表达HPV16L1、L2、E6、E7蛋白。结论非复制型重组痘苗病毒NTVJE6E7CKL1L2可作为预防和治疗HPV16相关肿瘤及其癌前病变候选疫苗。     

共表达HPV16型E6和E7突变基因重组痘苗病毒的构建及其抗肿瘤免疫效果的观察

目的：构建用于子宫颈癌治疗的HPV16型E6和E7重组痘苗病毒实验性疫苗株，并对其抗肿瘤免疫效果进行初步评价。方法：以痘苗病毒为载体、利用同源重组技术构建共表达HPV16 E6和E7基因的重组痘苗病毒。该病毒免疫C57BL／6小鼠后，检测其免疫原性和抗移植瘤生长情况。结果：PCR结果显示，重组病毒VmE6E7的TK基因内插入了分别由痘苗病毒早晚期启动子H6和7．5K表达的ME6和ME7－1基因。动物实验结果表明，rVmE6E7在C57BL／6小鼠体内可诱发E6和E7特异性抗体产生，被免疫小鼠能够抵抗HPV16 E6E7转化的同系肿瘤细胞的攻击。结论：获得1株用于宫颈癌治疗的HPV16型实验疫苗株，为进一步研制人用HPV16型疫苗株奠定了基础。     

表达HPV18E7E6的重组痘苗病毒构建及免疫效果的初步研究

目的 构建表达HPV18E7E6融合蛋白的重组痘苗病毒,并对E7E6蛋白的免疫原性进行研究.方法 将去除了转化活性的HPV18E6、E7基因融合,插入痘苗病毒重组质粒,通过同源重组构建表达HPV18E7E6的重组痘苗病毒,观察其免疫效果.结果 构建了表达E7E6融合蛋白的重组痘苗病毒,PCR鉴定及测序表明融合基因序列与设计相符,正确插入到痘苗病毒TK区域;Western-Blot检测表明该重组病毒能表达HPV18E7E6融合蛋白.免疫后的小鼠可产生E6、E7特异性抗体,但ELISPOT没检测到E7肽库刺激小鼠脾细胞产生分泌IFN-丫的阳性反应.结论 构建了一株表达HPV18E7E6融合蛋白的重组痘苗病毒,可以有效诱发小鼠产生针对E6、E7的体液免疫,但不能诱发产生相应的细胞免疫,为进一步研究不同动物模型中HPV18E6E7的细胞免疫特点提供了实验基础.     

修饰后中国山东地方株HPV16 E6E7基因的转化活性检测及免疫原性研究

目的 利用突变修饰后消除转化活性并保留抗原性的中国山东地方株人乳头瘤病毒16型（HPV16）E6E7基因，研制HPV16 DNA疫苗。方法 定点突变E6的终止密码，并保证E7读码框架不定；定点突变E7蛋白的Rb结合区中对其转化活性维持起关键作用的第24位氨基酸。突变修饰后的基因命名为fmE6E7。PCR扩增fmE6E7，重组人pLNCX载体，脂质体法转染3T3细胞，免疫荧光组织化学及Western blot检测转染细胞蛋白的表达。经软琼脂集落培养法和BALB／c裸鼠皮下接种法检测fmE6E7的转化活性。然后PCR扩增fmE6E7，构建pVR1012-fmE6E7真核表达质粒，于C57BL／6小鼠肌肉内直接进行裸DNA免疫，^51Cr释放法体外分析免疫鼠的细胞毒性T淋巴细胞活性，间接ELISA法检测免疫鼠血清中E7特异性抗体。结果 测序证实获得了预期的突变结果。pLNCX-fmE6E7转染细胞体外软琼脂培养3周未见集落形成；裸鼠皮下接种2月后未见移植瘤形成（0／3）。免疫鼠获得了较好的E7特异性的抗体E和抗原特异性的CTL。结论 修饰后E6E7基因可融合表达，转化活性消除的同时还可诱发特异的细胞免疫和体液免疫，表明中国山东地方株的E6E7基因可作为HPV16治疗性DNA疫苗的靶基因。     

表达野生型和突变型HPV16-E7重组痘苗病毒诱发的抗肿瘤免疫反应

目的 选出适合于治疗性疫苗研制的HPV16E7突变基因。方法 对表达野生型和突变型E7蛋白的重组痘苗病毒所诱发的细胞免疫反应和抗肿瘤活性进行比较研究。结果 表达突变型ME7-1（24G26G）的重组痘苗病毒VmE7-1与表达野生型E7的VwE7相同,可诱发特异性抗体和CTL的产生,明显推迟成瘤时间并且保护部分小鼠抵抗肿瘤细胞的攻击;而表达突变型ME7-2（24G26G91G）的重组痘苗病毒VmE7-2免疫小鼠后难以有效的激发细胞免疫反应,在抗肿瘤移植实验中也不具明显的免疫保护作用。结论 E7突变基因ME7-1可作为候选基因用于HPV16治疗性疫苗的研制。     

表达HPV 16型结构蛋白的非复制型重组痘苗病毒的构建与鉴定

目的 构建表达人乳头瘤病毒16型(HPV16)结构蛋白的非复制型重组痘苗病毒人用疫苗株。方法 采用聚合酶链反应技术(PCR)扩增并克隆HPV16主要结构蛋白L1和次要结构蛋白L2基因;将经过结构修饰的L1和L2基因插入痘苗病毒表达载体,通过与痘苗病毒在宿主细胞中同源重组后,筛选共表达L1／L2蛋白的重组痘苗病毒并对其进行鉴定。结果 DNA序列分析证实PCR扩增所获L1和L2克隆基因是正确的;斑点杂交结果表明重组病毒基因组中有L1和L2基因插入;该重组病毒在人源细胞中不复制或低水平复制,但可稳定表达相对分子质量为57000的L1蛋白和相对分子质量为90000的L2蛋白。结论 获得1株稳定表达HPV16 L1／L2蛋白的非复制型重组痘苗病毒人用疫苗株。     

HPV16E7E6重组腺病毒的构建及免疫效果评价

目的 构建用于宫颈癌治疗的HPV16E7E6重组腺病毒并评价其免疫效果.方法 根据哺乳细胞使用密码子的偏嗜性设计HPV16E7E6融合蛋白表达优势密码子基因序列并合成.将合成的E7E6基因插入腺病毒重组穿棱质粒pCD316后,与Ad5腺病毒骨架质粒共转染293细胞,重组病毒经单斑纯化并进行目的基因插入及表达的鉴定.扩增纯化重组病毒后免疫小鼠,评价其免疫活性.结果 PCR试验证明E7E6密码子优化基因成功插入Ad5病毒;Western blot检测结果表明重组腺病毒中E7E6优化基因能高效表达,该重组腺病毒免疫C57小鼠后,可诱发强特异性T细胞免疫应答,在小鼠体内能完全抑制5×104 TC-1移植瘤细胞的生长.结论 重组HPV16E7E6腺病毒可作为治疗HPV慢性感染或宫颈癌的候选疫苗.     

人乳头状瘤病毒16型不同基因疫苗联合免疫的实验研究

目的 探索联合免疫策略在预防和治疗人乳头状瘤病毒16型（HPV16）相关肿瘤中的作用。方法 在C57BL／6动物模型中，观察了表达HPV16基因的融合蛋白L2E7疫苗和重组痘苗病毒mE67疫苗的不同联合免疫方式在预防和治疗HPV16相关肿瘤中的作用。用酶联免疫斑点（ELISPOT）和细胞毒T淋巴细胞（CTL）反应评价它们在诱发机体产生细胞免疫应答中的作用。结果 我们发现以HPV16 L2E7融合蛋白＋佐剂（CpG）初免，用重组痘苗病毒rVVmE67加强免疫的联合免疫方式在C57BL／6小鼠实验中可以有效预防和治疗HPV16相关肿瘤的攻击。ELISPOT可以检测到高水平的E749-57肽特异性，分泌IFN-γ的效应T细胞。CTL检测同样反应出这种联合免疫方式所诱发的CTL细胞可以有效识别并杀伤含HPV16E6／E7的靶细胞。结论 以HPV16L2E7融合蛋白＋CpG初免，用重组痘苗病毒rVVmE67加强的联合免疫策略可以有效防治HPV16相关肿瘤，为进一步研究提供了科学基础。     

人乳头瘤病毒6b L1/16E7嵌合蛋白的基因克隆和表达

目的 研究HPV6bL1/16E7嵌合蛋白的基因克隆及其在昆虫细胞的表达,为防治尖锐湿疣和宫颈癌的基因工程疫苗研究作准备。方法 用PCR扩增出HPV6bL1/16E7嵌合蛋白基因,将其克隆到杆状病毒转移载体pVL1393,制备重组杆状病毒并感染昆虫细胞表达HPV6bL1/16E7嵌合蛋白。结果 HPV6bL1/16E7嵌合蛋白基因在昆虫细胞中得到了表达,并可自组装形成病毒样颗粒。结果 昆虫细胞表达的HPV6bL1/16E7嵌合病毒样颗粒可进一步用于HPV感染的免疫机理及基因工程疫苗研究。     

我国登革2型病毒43株包膜E蛋白MBP-B165抗原性的研究

目的 通过对我国登革2型病毒株包膜E蛋白包括B区在内的第267－432氨基酸编码基因片段的表达,研究MBP－B165蛋白的抗原性。方法 首先采用PCR方法扩增了编码B165蛋白的基因片段,并将其插入到pMal－C2核载体进行融合表达。采用蛋白印迹和ELISA法对表达产物进行特异性鉴定。用表达的融合蛋白MBP－B165免疫大白兔,产通过ELISA法检测兔免疫血清中登革2型病毒特异的抗体。结果 表达的融合蛋白MBP－B165可与我国登革2型病毒株抗体特异结合,而且与登革1、3和4型病毒参考株的多克隆抗体均具有较高的反应性。用表达蛋白免疫大白兔可产生针对我国登革2型病毒株E蛋白的特异抗体,并且该抗体与基他3个型病毒参考株有交叉反应。结论 我国登革2型病毒43株E蛋白包括B区在内的第267－432氨基酸序列具有一定的抗原性,而且具有黄病毒亚组特异的反应性表位,即4个型登革病毒的结构保守性表位。     

Human papillomavirus type 16 E6 proteins with glycine substitution for cysteine in the metal-binding motif.

The human papillomavirus type 16 (HPV 16) E6 is a 151 amino acid protein containing four metal-binding motifs, Cys-X-X-Cys. We constructed and characterized three mutants with Gly substitutions for Cys within the motif; for Cys-66, for Cys-136, and for both, respectively. Zinc binding to bacterially expressed E6 was markedly reduced by the substitution for Cys-66, but DNA binding was unaffected by any of these mutations. Immunofluorescence staining showed that, whereas the E6 expressed in monkey COS-1 cells appeared mostly nuclear, the Cys-66 mutant appeared cytoplasmic. Subcellular fractionation followed by immunoprecipitation showed that the E6 in COS-1 cells was located in the membrane, nuclear, and nuclear-wash fractions, but not in the soluble cytoplasmic fraction, and that the nuclear Cys-66 protein was markedly reduced. The mutant proteins in COS-1 cells appeared to be less stable than the wild type, because the immunofluorescent cells were fewer and because the E6 bands in autoradiograms were less dense. The substitution mutants lost their capacity to enhance HPV 16 E7 transformation of rat 3Y1 cells. The data indicate that Cys-66 plays a crucial role for zinc binding and nuclear localization of E6 and that both Cys-66 and Cys-136 are required for a stable or functional structure of E6.     

Cloning of E6 and E7 Genes of Human Papilloma Virus Type 18 and Transformation Potential of E7 Gene and its Mutants

E6 and E7 genes of human papilloma virus type 18 have been subcloned from plasmid pC7, carrying an insert of DNA from squamous cell carcinoma of cervix. Both genes in comparison to prototype variant contain one mutation that changes asparagine to leucine. In the case of E6 gene this mutation is mapped in codon 129, in the case of E7 the same change AAC to AAA mapped in codon 92. In addition both genes contain few point mutations that do not change the aminoacid sequences of the protein. Two mutants of E7 gene have been constructed by site directed mutagenesis based on PCR technology—one in codon 10 (change Asp to Asn) and one in codon 24 (change Asp to Gly). The first type of mutation did not influence the transformation potential of the E7 gene in comparison to the parental one with mutation in codon 92. The mutation in codon 24 (region responsible for the interaction with Rb protein) eliminate the transformation potential of the gene. The cells transformed with E7 mutants in codons 10 and 92 were tumorigenic for syngenic rats.     

The influence of N-linked glycosylation on the antigenicity and immunogenicity of rubella virus E1 glycoprotein.

Rubella virus E1 glycoprotein contains three functional N-linked glycosylation sites. The role of N-linked glycosylation on the antigenicity and immunogenicity of E1 glycoprotein was studied using vaccinia recombinants expressing E1 glycosylation mutants. Expressed E1 glycosylation mutant proteins were recognized by a panel of E1-specific monoclonal antibodies in radioimmunoprecipitation, immunofluorescence, and immunoblotting, indicating that carbohydrate side chains on E1 are not involved in the constitution of epitopes recognized by these monoclonal antibodies. This observation was further supported by the fact that removal of oligosaccharides on E1 by glycosidase digestion did not significantly change the antigenicity of E1. All the glycosylation mutants were capable of eliciting anti-RV E1 antibodies. The single glycosylation mutants (G1, G2, and G3), but not the double mutant (G23) or the triple mutant (G123), were found to be capable of inducing virus neutralizing antibodies. Among the single glycosylation mutants, only G2 and G3 were active in producing hemagglutination inhibition antibodies in mice. Our findings suggest that although carbohydrate on E1 is not directly involved in the antigenic structures of E1, it is important in maintaining proper protein folding and stable conformation for expression of immunological epitopes on E1.     

Contribution of disulphide bonds to antigenicity of Lep d 2, the major allergen of the dust mite Lepidoglyphus destructor

To study the contribution of the 3 disulphide bonds in the major allergen Lep d 2 to the antigenic structure, site-directed mutagenesis was performed. Mutants with one or more cysteine residues altered were constructed with a histidine residue tag for purification purposes and expressed as recombinant proteins in E. coli. Seven mutants were analysed: 3 single mutants (Cys 8, Cys 21 and Cys 72), 3 double mutants (Cys 8-117, Cys 21-16 and Cys 72 77) and one mutant with all 6 cysteines altered (6 Cys). The evaluation of IgE reactivity in 10 allergic patients showed that the disulphide bond formed by cysteine 72 and 77 was the single most contributing bond to IgE binding. Mutants with disruption of the Cys 8-117 bond had a lesser reduction in IgE binding, even though this alteration seemed to influence the compact nature of Lep d 2. However, to abolish the IgE reactivity almost completely, all 6 cysteines had to be altered. A monoclonal antibody previously raised against Lepidoglyphus destructor showed a similar binding as human IgE with no reactivity to the Cys 72 77 or the 6 Cys mutant. Using skin prick test we found no reaction to the 6 Cys mutant at the concentrations tested (1-100 microg/ml) in an Lepidoglyphus destructor allergic patient, while the T-cell reactivity was preserved. The 6 Cys mutant of Lep d 2 may, after further evaluation, be a candidate molecule for improved immunotherapy of Lepidoglyphus destructor allergy.     

CFTR mutation combinations producing frequent complex alleles with different clinical and functional outcomes

Genotype–phenotype correlations in cystic fibrosis (CF) may be difficult to establish because of phenotype variability, which is associated with certain CF transmembrane conductance regulator (CFTR) gene mutations and the existence of complex alleles. To elucidate the clinical significance of complex alleles involving p.Gly149Arg, p.Asp443Tyr, p.Gly576Ala, and p.Arg668Cys, we performed a collaborative genotype–phenotype correlation study, collected epidemiological data, and investigated structure–function relationships for single and natural complex mutants, p.[Gly576Ala;Arg668Cys], p.[Gly149Arg;Gly576Ala;Arg668Cys], and p.[Asp443Tyr;Gly576Ala;Arg668Cys]. Among 153 patients carrying at least one of these mutations, only three had classical CF and all carried p.Gly149Arg in the triple mutant. Sixty‐four had isolated infertility and seven were healthy individuals with a severe mutation in trans, but none had p.Gly149Arg. Functional studies performed on all single and natural complex mutants showed that (1) p.Gly149Arg results in a severe misprocessing defect; (2) p.Asp443Tyr moderately alters CFTR maturation; and (3) p.Gly576Ala, a known splicing mutant, and p.Arg668Cys mildly alter CFTR chloride conductance. Overall, the results consistently show the contribution of p.Gly149Arg to the CF phenotype, and suggest that p.[Arg668Cys], p.[Gly576Ala;Arg668Cys], and p.[Asp443Tyr;Gly576Ala;Arg668Cys] are associated with CFTR‐related disorders. The present study emphasizes the importance of comprehensive genotype–phenotype and functional studies in elucidating the impact of mutations on clinical phenotype. Hum Mutat 33:1557–1565, 2012. © 2012 Wiley Periodicals, Inc.     

Functional relatedness between the E1a and E1b regions of group C and group D human adenoviruses

The functional relatedness of the transforming genes (E1a and E1b) of adenovirus type 9 (group D) which induces mammary tumors in rats and those of the non-tumorigenic adenoviruses, Ad2 and Ad5 (group C) was examined. Transfection of established rat embryo cells with a DNA segment containing the E1a and E1b regions of Ad9 resulted in efficient transformation; similar results have been shown for group A, B and C Ads. In contrast to Ads of group A, B and C, Ad9 DNA containing the E1 region or the entire viral genome was unable to transform primary baby rat kidney (BRK) cells. The functional relatedness of genes encoded within the E1 region was compared using a mutant complementation assay in which various group C mutants defective in the entire E1 region or in the E1a or E1b regions alone as well as mutants defective exclusively within the 19K or 58K T antigens coding regions of E1b were coinfected with wild type (wt) Ad9 and tested for group C mutant DNA replication, virus production, or expression of early and late genes. These studies have shown that a defect in the entire E1 region of Ad2 could only be complemented poorly by Ad9; our earlier studies have shown that coinfection with Ad12 (group A) or Ad7 (group B) resulted in efficient complementation (Brusca and Chinnadurai (1981) J. Virol. 39, 300-305). Further analysis indicated that a defect in the E1a region could be complemented by the group D E1a region. The level of E1a complementation as judged by mutant DNA replication and activation of expression of mutant early viral genes was about one-fourth to one-fifth the level in 293 cells that constitutively express Ad5 E1a and E1b regions. Our results indicate that a defect in the E1b 19K T antigen, which leads to degradation of intracellular DNA in infected cells, could be complemented by the group D protein. However, a defect in the E1b 58K T antigen could not be efficiently complemented by the group D protein. Coinfection of group C mutants defective in the 58K T antigen and Ad9 wt did not lead to an increase in the mutant viral production. Furthermore, in cells coinfected with the 58K T antigen mutants and Ad9 wt there was a large reduction in the accumulation of group C late cytoplasmic RNA. The observed complementation defect of Ad9 in supporting multiplication of group C mutants defective in the entire E1 region may therefore be a cumulative effect of both E1a and E1b regions.     

Isolation of cellular revertants from a rat cell line transformed by the E6 and E7 genes of human papillomavirus type 16.

Three revertants defective in the ability to form colonies in semisolid medium were isolated from a rat cell line transformed by the E6 and E7 genes of human papillomavirus type 16 (HPV16). These revertants appeared to be defective in a cellular factor(s) necessary for transformation by HPV16-E6E7 genes since they still expressed a comparable amount of HPV16-E6E7 mRNA and E7 protein to the parental cells, harbored rescuable transforming virus, and were resistant to retransformation by HPV16-E6E7 genes. All these reverted phenotypes of the three mutants were recessive on somatic cell hybridization with normal cells, because all the hybrids showed transformed phenotypes.