人Ⅰ型免疫缺陷病毒gag-env嵌合基因在重组痘苗中的表达

Gag和Env蛋白是人Ⅰ型免疫缺陷病毒(Humanimmunodeficiencyvirustype1,HIV1)的结构蛋白,是HIV1诱导机体产生体液免疫和细胞免疫的主要抗原。本实验通过多次亚克隆,将env基因以正确的三联密码读框插入gag基因的下游,制备了HIV1gagenv嵌合基因,并将嵌合基因分别置于痘苗病毒p75启动子和牛痘病毒A型包涵体(ATI)启动子的下游,经过同源重组和红细胞吸附试验筛选,获得了2株重组痘苗病毒。免疫荧光试验和酶免疫试验证明,两株重组痘苗病毒均能正确地表达HIV1gagenv嵌合基因。动物实验表明,gagenv嵌合基因重组痘苗病毒可诱导小鼠产生抗HIV特异性抗体。这些结果为艾滋病颗粒化疫苗的研制提供了借鉴。     

人癌胚抗原-重组痘苗病毒的构建和制备

痘苗病毒的基因组庞大,结构复杂而特殊,不可能将外源基因直接插入它的基因组,必须利用一种特殊的痘苗病毒质粒,才能构建成功重组痘苗病毒．在分析了痘苗病毒质粒ｐＪ１２０〔含有我国天花疫苗－痘苗病毒天坛株７６１的启动子和胸苷激酶（ｔｈｙｍｉｄｉｎｅｋｉｎａｓｅ,简称ＴＫ基因）,及含有人癌胚抗原（ｃａｒｃｉｎｏｅｍｂｒｙｎｉｃａｎｔｉｇｅｎ,简称ＣＥＡ）ｃＤＮＡ全序列的质粒ｐ９１０２３Ｂ－ｃｅａ－１７结构的基础上,设计出三步法构建了重组疫苗病毒质粒ｐＪ－ＣＥＡ．经酶切及ＰＣＲ鉴定ｐＪ－ＣＥＡ中ＣＥＡｃＤ－ＮＡ的存在,进一步用同源重组方法构建了表达人ＣＥＡ的重组痘苗病毒,并以人体成纤维细胞作为宿主细胞,对ＣＥＡ－重组痘苗病毒进行了大量培养．再次证实痘苗病毒是良好的真核表达载体,可以高效而准确地表达细胞膜糖蛋白ＣＥＡ．     

Structural proteins of hog cholera virus expressed by vaccinia virus: further characterization and induction of protective immunity.

A cDNA fragment covering the genomic region that encodes the structural proteins of hog cholera virus (HCV) was inserted into the tk gene of vaccinia virus. Expression studies with vaccinia virus/HCV recombinants led to identification of HCV-specific proteins. The putative HCV core protein p23 was demonstrated for the first time by using an antiserum against a bacterial fusion protein. The glycoproteins expressed by vaccinia virus/HCV recombinant migrated on sodium dodecyl sulfate-gels identically to glycoproteins precipitated from HCV-infected cells. A disulfide-linked heterodimer between gp55 and gp33 previously detected in HCV-infected cells was also demonstrated after infection with the recombinant virus. The vaccinia virus system allowed us to identify, in addition to the heterodimer, a disulfide-linked homodimer of HCV gp55. The vaccinia virus/HCV recombinant that expressed all four structural proteins induced virus-neutralizing antibodies in mice and swine. After immunization of pigs with this recombinant virus, full protection against a lethal challenge with HCV was achieved. A construct that lacked most of the HCV gp55 gene failed to induce neutralizing antibodies but induced protective immunity.     

Fowlpox virus recombinants expressing the envelope glycoprotein of an avian reticuloendotheliosis retrovirus induce neutralizing antibodies and reduce viremia in chickens.

Eight stable fowlpox virus (FPV) recombinants which express the envelope glycoprotein of the spleen necrosis virus (SNV) strain of reticuloendotheliosis virus (REV), an avian retrovirus, were constructed. These recombinants differ in the genomic location of the inserted genes, in the orientation of the insert relative to flanking viral sequences, and in the promoter used to drive expression of the env gene. Of these variables, promoter strength seems to be the most crucial. The P7.5 promoter of vaccinia virus, which is commonly used in the construction of both vaccinia virus and FPV recombinants, resulted in lower levels of expression of the envelope antigen in infected chicken cells compared with a strong synthetic promoter, as determined by immunofluorescence and enzyme-linked immunosorbent assay. Two peptides encoded by the env gene, the 21-kDa transmembrane peptide and a 62-kDa precursor, were detected by immunoprecipitation of labeled proteins from cells infected with recombinant FPVs, using monoclonal antibodies against REV. These peptides comigrated with those precipitated from REV-infected cells. One of the recombinants (f29R-SNenv) was used for vaccination of 1-day-old chickens. Vaccinated chicks developed neutralizing antibodies to SNV more rapidly than did unvaccinated controls following SNV challenge and were protected against both viremia and the SNV-induced runting syndrome.     

Expression strategy of a phlebovirus: biogenesis of proteins from the Rift Valley fever virus M segment.

The middle (M) RNA segment of Rift Valley fever virus (RVFV) encodes four proteins: the major viral glycoproteins G2 and G1, a 14-kilodalton (kDa) protein, and a 78-kDa protein. These proteins are derived from a single large open reading frame (ORF) present in the virus-complementary M-segment mRNA. We used recombinant vaccinia viruses in which sequences representing the M-segment ORF were engineered as a surrogate system to study phlebovirus protein expression. To investigate the translational initiation codon requirements for synthesis of these proteins, we constructed a series of vaccinia virus recombinants containing specific sequence changes which eliminated select ATG codons found in the region of the ORF preceding the mature glycoprotein-coding sequences (the preglycoprotein region). Examination of phleboviral proteins synthesized in cells infected with these vaccinia virus recombinants clearly showed that the first ATG of the ORF was required for the production of the 78-kDa protein, while synthesis of the 14-kDa protein was absolutely dependent on the second in-phase ATG codon. Efficient biosynthesis of glycoprotein G2 was shown to depend on one or more ATG codons within the preglycoprotein region, but not the first one of the ORF. Synthesis of about one-half of the total glycoprotein G1 was affected by the amino acid changes that eliminated ATG codons, while production of the remainder appeared to be independent of all ATG codons in the preglycoprotein region. These data indicated that the means for glycoprotein G1 biosynthesis was distinct from those of the other three M-segment gene products. The results presented herein suggest that a surprisingly complex expression strategy is employed by the RVFV M segment. Although the full nature of the mechanisms involved in the biogenesis of the four RVFV M-segment proteins remains unclear, it does involve the use of at least two (ATG codons 1 and 2), and likely more, distinct translation start sites within the same ORF to produce its complete complement of gene products.     

甲3型流感病毒M2基因在痘苗病毒天坛株中的表达

为获得表达甲3型流感病毒(H3N2)M2蛋白的重组天坛株痘苗病毒RVJ1175M2,使用PCR方法扩增流感病毒全长M2基因,将其克隆到天坛株痘苗病毒同源重组质粒pJSC1175中,获得重组质粒pJSC1175M2,通过与痘苗病毒载体同源重组,构建了含流感病毒M2基因的重组痘苗病毒株RVJ1175M2。PCR检测结果证明,流感病毒(H3N2)M2蛋白基因准确插入到天坛株痘苗病毒TK区;Western blot、免疫荧光和流式细胞计数表明重组病毒RVJ1175M2可以有效地表达M2蛋白,表达的M2蛋白有两条带,分别为15kD和13kD,与相关文献报道一致;M2蛋白可有效分布在感染细胞的细胞膜上。这些结果表明重组痘苗病毒株RVJ1175M2可以有效地表达流感病毒M2蛋白,为使用表达M2蛋白的不同类型疫苗进行广谱流感疫苗效果的比较研究奠定了基础。     

修饰的痘苗病毒安卡拉株（MVA）基因组中高频的同源重组

痘苗病毒由于其外源基因容量大,表达产物后加工完善等优势而广泛用于基因工程的研究以及基因治疗,痘苗病毒基因组的同源重组现象为其基因操作带来了方便,也被用于很多痘苗病毒基因结构和功能的研究,痘苗病毒安卡拉株（MVA）是一种修饰的复制限制的痘苗病毒,由于极高的安全性,正在实验室和临床应用的很多领域取代普通的痘苗病毒,为提高重组MVA系统的安全性以及筛选重组MVA的效率,发展了一种暂时选择系统,此系统利用分子内2段同向的相同序列发生同源重组去除选择标记k1l基因,从而消除选择标记对宿主可能的危害。利用此暂时表达系统构建了4个携带编码不同长度外源多蛋白质序列的重组MVA,并估算了每次传代的重组频率,结果显示,MVA同源重组频率虽然比其他痘苗病毒株要低,但仍然是较斋的,将带有k1l基因的重组MVA经3-4次盲传（blind passage),即可获得完全去除选择标记的重组MVA。进一步证明上述利用暂时选择标记k1l基因构建重组MVA的系统具有十分可靠的安全性,适合作为人体活疫苗开发和基因治疗的载体,而且,通过盲传进行筛选,能大大提高去除选择标记的效率,降低鸺建重组MVA的成本。     

Human respiratory syncytial virus glycoprotein G expressed from a recombinant vaccinia virus vector protects mice against live-virus challenge.

Recombinant vaccinia virus vectors were constructed which expressed the major surface glycoprotein G of human respiratory syncytial (RS) virus. The biological activity of the G protein expressed from these vectors was assayed. Inoculation of rabbits with live recombinant virus induced high titers of antibody which specifically immunoprecipitated RS virus G protein and was capable of neutralizing RS virus infectivity. Immunization of mice by either the intranasal or the intraperitoneal route with recombinant virus that expressed only the G protein resulted in complete protection of the lower respiratory tract upon subsequent challenge with live RS virus.     

Neomycin resistance as a dominant selectable marker for selection and isolation of vaccinia virus recombinants.

The antibiotic G418 was shown to be an effective inhibitor of vaccinia virus replication when an appropriate concentration of it was added to cell monolayers 48 h before infection. Genetic engineering techniques were used in concert with DNA transfection protocols to construct vaccinia virus recombinants containing the neomycin resistance gene (neo) from transposon Tn5. These recombinants contained the neo gene linked in either the correct or incorrect orientation relative to the vaccinia virus 7.5-kilodalton gene promoter which is expressed constitutively throughout the course of infection. The vaccinia virus recombinant containing the chimeric neo gene in the proper orientation was able to grow and form plaques in the presence of G418, whereas both the wild-type and the recombinant virus with the neo gene in the opposite polarity were inhibited by more than 98%. The effect of G418 on virus growth may be mediated at least in part by selective inhibition of the synthesis of a subset of late viral proteins. These results are discussed with reference to using this system, the conferral of resistance to G418 with neo as a positive selectable marker, to facilitate constructing vaccinia virus recombinants which contain foreign genes of interest.     

Limited expression of poliovirus by vaccinia virus recombinants due to inhibition of the vector by proteinase 2A.

A recombinant vaccinia virus was constructed that expressed poliovirus coat precursor protein P1 fused to about two-thirds of the 2A proteinase. The truncated 2A segment could be cleaved away from the P1 region by coinfecting with poliovirus type 1, 2, or 3 or with human rhinovirus 14 but not with encephalomyocarditis virus. Further cleavage of the vector-derived P1 to yield mature poliovirus capsid proteins was not observed. Attempts to isolate vaccinia virus recombinants containing portions of the poliovirus genome that encompassed the complete gene for proteinase 2A were unsuccessful, unless expression of functional 2A was abolished by insertion of a frameshift mutation. We conclude that an activity of the 2A proteinase, probably its role in translational inhibition, prevented isolation of vaccinia virus recombinants that expressed 2A.     

密码子偏性对痘苗病毒载体表达效率影响的研究

为了研究密码子偏性对痘苗病毒载体表达效率的影响,分别采用痘苗病毒及其宿主细胞的优势密码子对绿色荧光蛋白基因进行改造,利用荧光、Western blot和FCM等方法分析其在痘苗病毒载体系统的表达水平。结果显示,全部采用痘苗病毒优势密码子(富含A T)和全部采用宿主细胞优势密码子(富含G C),以及部分使用宿主细胞优势密码子的三种绿色荧光蛋白基因都能够有效表达,表达水平相近,表明痘苗病毒载体对目的基因密码子的使用具有很好宽容性。为了探讨这种宽容性的机理,分别利用在胞核内和在胞浆内转录的质粒载体对不同密码子偏性的绿色荧光蛋白基因进行表达分析。结果显示,胞核内转录目的基因的pcDNA3质粒载体能有效表达富含G C的绿色荧光蛋白基因,不能有效表达富含A T的绿色荧光蛋白基因,而胞浆内转录目的基因的pSCA质粒载体能同样有效表达上述不同密码子偏性的目的基因。这些结果表明,位于胞浆内的富含A U的转录产物能够有效表达,细胞核内生成的富含A U的转录产物可能受核膜屏障或其它核内因素影响而不能有效表达。因此,胞浆内繁殖的特性是痘苗病毒载体具有密码子宽容性的主要原因。此研究为痘苗病毒载体和常用真核表达载体的选择使用提供了重要实验依据。     

Use of a negative selectable marker for rapid selection of recombinant vaccinia virus

Vaccinia virus has been a powerful tool in molecular biology and vaccine development. The relative ease of inserting and expressing foreign genes combined with its broad host range has made it an attractive antigen delivery system against many heterologous diseases. Many different approaches have been developed to isolate recombinant vaccinia virus generated from homologous recombination; however, most are time-consuming, often requiring a series of passages or specific cell lines. Herein we introduce a rapid method for isolating recombinants using the antibiotic coumermycin and the interferon-associated PKR pathway to select for vaccinia virus recombinants. This method uses a negative selection marker in the form of a fusion protein, GyrB-PKR, consisting of the coumermycin dimerization domain of Escherichia coli gyrase subunit B fused to the catalytic domain of human PKR. Coumermycin-dependent dimerization of this protein results in activation of PKR and the phosphorylation of translation initiation factor, eIF2α. Phosphorylation of this factor leads to an inhibition of protein synthesis, and an inhibition of virus replication. In the presence of coumermycin, recombinants are isolated due to the loss of this coumermycin-sensitive gene by homologous recombination. We demonstrate that this method of selection is highly efficient and requires limited rounds of enrichment to isolate recombinant virus.     

The foot-and-mouth disease virus leader proteinase gene is not required for viral replication.

The foot-and-mouth disease virus (FMDV) leader (L) proteinase has only two known functions: (i) autocatalytic removal from the N terminus of the viral polyprotein and (ii) cleavage of the p220 subunit of the eukaryotic initiation factor 4F complex, which helps to shut off host protein synthesis. Cleavage of p220 appears to be important for picornavirus replication, since rhinoviruses and enteroviruses utilize a different proteinase (2A) to cleave p220. To explore the role of L in FMDV replication, we generated synthetic FMDV genomes lacking the L gene and tested their viability in cells. Genomes were constructed with the N-terminal Gly codon of VP4 positioned directly following either the first (Lab) or second (Lb) Met codon of the L protein. Cells transfected with synthetic RNAs lacking L and initiating with the Lab Met codon failed to produce viable virus, but cells transfected with RNAs that utilized the second AUG to drive translation of the viral polyprotein produced viable viruses. These leader-deleted viruses produced plaques on BHK cells that were slightly smaller than those produced by wild-type (WT) virus, grew to slightly lower titers than WT virus in BHK cells, shut off host protein synthesis more slowly than WT virus, and were slightly attenuated in mice. These studies indicate that the L proteinase is not essential for FMDV replication and show that in the cells and animals tested the L gene has a limited effect on virus replication.