狂犬病病毒糖蛋白重组人腺病毒的构建及免疫效果的初步研究

构建表达狂犬病病毒弱毒SRV9糖蛋白(GP)的重组人5型腺病毒,检测其对小鼠的免疫效果。将狂犬病病毒SRV9株GP基因的完整开放阅读框克隆到腺病毒表达系统中的穿梭质粒多克隆位点,构建重组穿梭质粒pac-Ad5CMV-Gs9,以罗氏转染液介导线性化骨架质粒和重组穿梭质粒共转染293AD细胞,细胞病变后取培养物进行PCR鉴定并电镜观察,在293AD细胞上测定病毒滴度。以106 TCID50重组腺病毒腹腔接种昆明小鼠,免疫后不同时段采尾静脉血通过荧光抗体病毒中和试验(FAVN)检测小鼠血清狂犬病中和抗体效价。正确构建重组穿梭质粒pacAd5CMV-Gs9;获得表达狂犬病病毒SRV9株GP蛋白的缺陷型重组人5型腺病毒;病毒滴度达到106 CFU/mL以上;腹腔接种小鼠14d后均产生了抗狂犬病中和抗体,有效保护率达90%。成功获得了表达狂犬病病毒GP基因的重组腺病毒,该腺病毒免疫小鼠可产生保护性中和抗体,为进一步开发新型兽用狂犬病疫苗奠定了物质基础。     

狂犬病病毒糖蛋白的杆状病毒表达及其免疫原性研究

构建表达狂犬病病毒SRV9株糖蛋白(GP)的重组杆状病毒,评价其表达出的SRV9株糖蛋白对小鼠免疫效果。将狂犬病病毒SRV9株GP基因的完整开放阅读框克隆入穿梭质粒Bacmid中,构建重组穿梭质粒Bacmid-G,以此转染Sf9细胞。对病变细胞培养物进行电镜观察,获得正确重组杆状病毒后,通过Western-blot、IFA及小鼠免疫实验鉴定表达产物的免疫反应性及免疫原性。正确构建重组穿梭质粒Bacmid-G;获得表达SRV9株糖蛋白的重组杆状病毒,其表达产物具有良好免疫原性;表达产物接种小鼠可诱导其产生抗狂犬病病毒中和抗体,中和抗体达到保护水平的比例为100%。本实验所获得的重组杆状病毒表达出的SRV9株糖蛋白具有较好的免疫原性,可诱导小鼠产生保护性中和抗体,该实验为进一步开发狂犬病亚单位疫苗奠定了基础。     

高效价冻干人用狂犬病疫苗暴露后免疫程序的研究

初步确定高效价冻干人用狂犬病疫苗（6．0IU／剂）暴露后免疫程序。制备高效价的冻干人用狂犬病疫苗（6．0IU／剂）,以狂犬病街毒CNX8601和BD06分别攻击小鼠和比格犬的咬肌,接种不同效价的狂犬病疫苗,以RFFIT法检测中和抗体,根据动物死亡情况,计算暴露后疫苗保护率,对不同效价的疫苗进行中和抗体测定和保护率统计分析。在以小鼠为实验动物的疫苗保护率研究中,冻干人用狂犬病疫苗（3．1IU／剂）0／3／7／14／28免疫程序的保护率为40．6％,高效价的冻干人用狂犬病疫苗（6．0IU／剂）0／3／14免疫程序的保护率为56．2％,中和抗体比较,P〈0．05,2组间有显著性差异;在以比格犬为实验动物的保护效果研究中,冻干人用狂犬病疫苗的保护率（3．1IU／剂）为70％;高效价的冻干人用狂犬病疫苗（6．0IU／剂）的保护率为80％,中和抗体的比较,P〉0．05,没有显著性差异。高效价冻干人用狂犬病疫苗暴露后免疫程序可初步确定为0、3、14d免疫。     

牛疱疹病毒Ⅰ型VP22和猪繁殖与呼吸综合征病毒GP5融合基因DNA疫苗的免疫效应

为了提高表达GP5的猪繁殖与呼吸综合征病毒（PRRSV）DNA疫苗的免疫效应,将具有蛋白转导功能的牛疱疹病毒1型（BHV-1）VP22基因插入到经过修饰具有更好免疫原性的PRRSV修饰型ORF5基因（ORF5M）上游,构建VP22和ORF5M融合表达的真核表达质粒pCI-VP22-ORF5M。经间接免疫荧光试验（IFA）和Westernblot检测证实体外表达后,免疫BALB/c小鼠,检测小鼠免疫后的GP5特异性ELISA抗体、抗PRRSV中和抗体和脾淋巴细胞增殖反应,并与非融合的真核表达质粒pCI-ORF5M进行比较。结果显示,融合表达VP22-GP5的DNA疫苗 pCI-VP22ORF5M诱导的体液免疫和细胞免疫反应均明显高于非融合表达的DNA疫苗pCI-ORF5M,表明蛋白转导相关蛋白BHV-1 VP22能显著增强表达GP5的PRRSV DNA 疫苗的免疫效应,有效发挥了基因免疫佐剂效应;这为研制PRRSV高效DNA疫苗奠定了基础,同时也为其它疾病的高效新型疫苗研究提供了思路。     

以减毒沙门氏菌为载体的小鼠肝炎病毒DNA疫苗的构建及其免疫原性

目的：构建以减毒沙门氏菌为载体的小鼠肝炎病毒DNA疫苗,研究该疫苗的免疫原性。方法：以小鼠肝炎病毒S1基因的重组真核表达质粒pVAX1—S1免疫BALB／c小鼠,ELISA检测其诱导抗体产生情况;再将重组质粒pVAX1—S1电转化到减毒鼠伤寒沙门氏菌SL7207中,构建运送S1基因的重组减毒沙门氏菌SL7207（pVAX1—S1）,口服免疫BALB／c小鼠,间接免疫荧光试验鉴定减毒沙门氏菌运送的DNA疫苗的免疫原性。结果：与pVAX1空载体对照组相比,重组真核表达质粒pVAX1—S1免疫组二免及三免后抗体水平分别存在显著性差异（P〈0．05）和极显著性差异（P〈0．01）。减毒沙门氏菌运送的DNA疫苗SL7207（pVAX1—S1）诱导小鼠产生了特异性的血清抗体。结论：构建的重组减毒沙门氏菌SL7207（pVAX1—S1）具有良好的免疫原性,可诱导小鼠产生特异性的体液免疫应答。这为进一步研制冠状病毒新型基因疫苗奠定了基础。     

Ubiquitin基因介导下的PRRSV GP5基因免疫特性研究

目的：探讨泛素基因对GP5基因免疫的影响。泛素-蛋白酶体途径是一种高效蛋白降解途径,主要负责真核细胞内蛋白选择性降解。方法：本研究将ORF5DNA片段克隆到含泛素（Ub）基因的表达载体pCMV-Ub和pCMV载体,构建成重组质粒pCMV—Ub-GP5和pCMV-GP5。两种质粒DNA肌肉注射免疫BALb／c小鼠后,分别检测体液免疫反应和细胞免疫反应,比较GP5单基因和Ub—GP5融合基因DNA免疫所诱生免疫应答的强度。结果：二者均可诱生PRRSVELISA抗体和中和抗体,其抗体水平无明显差别,但Ub-GP5融合基因诱生的淋巴细胞反应和CTL反应明显高于GP5基因。结论：泛素基因可以促进GP5诱生细胞免疫反应。     

家犬用狂犬病口服基因工程疫苗的研究初探

中国的狂犬病主要由农村家犬通过咬伤传染所致,为了研制高效实用的家犬用狂犬病口服基因工程疫苗,本研究把狂犬病病毒G蛋白基因插入真核表达质粒pIRESneo,构建重组表达质粒pIRESneo-G,转化入鼠伤寒减毒沙门氏菌SL3261,构建重组口服疫苗SL3261-pIRESneo-G。通过口服免疫小鼠,检测免疫血清中和抗体水平及其病毒保护效果。结果显示,经小鼠口服免疫接种一次后第三周能产生高水平的中和抗体水平,达到WHO要求的0.5 IU/mL;免疫小鼠经肌肉注射100 LD50/0.03 m L的野毒株GX074后获56%保护效果。     

免疫刺激复合物(ISCOM)介导的传染性法氏囊病病毒多聚蛋白基因免疫的研究

将传染性法氏囊病病毒（IBDV）ZJ2000株的多聚蛋白（VP2／VP4／VP3）基因插入pCI质粒的CMV启动子下游,构建了真核表达质粒pCI-VP2/VP4/VP3,在Lipofectin介导下转染Vero细胞进行了多聚蛋白的瞬时表达。以免疫刺激复合物（ISCOM）为佐剂制备DNA疫苗,进行不同免疫剂量间、不同免疫途径间、一次免疫和二次免疫间的效果对比试验。结果表明：以肌内和皮内联合免疫法效果最好,而口服和点眼等途径未能诱导足够的免疫反应;大于200μg的剂量DNA疫苗才能产生良好的免疫力;二次免疫的效果明显优于一次免疫。与常规的弱毒疫苗B87和D78相比,DNA疫苗产生中和抗体的潜伏期长、效价相对较低,对强毒攻击的保护率相当。本试验还证实,免疫刺激复合物具有明显提高DNA疫苗免疫效果的作用。DNA疫苗能诱导产生保护性反应,为今后IBD疫苗的研究开创了一条新的途径。     

共表达猪繁殖与呼吸综合征病毒修饰型GP5和M蛋白增强DNA疫苗免疫应答的研究

为了增强猪繁殖与呼吸综合征病毒(PRRSV)DNA疫苗免疫效力,分别以PRRSV ORF5m(修饰型ORF5基因)及ORF6为候选基因,构建了单基因或双基因共表达的真核表达质粒pCI-ORF5m、pCI-ORF6及pCI-ORF5m/ORF6。转染BHK-21细胞,Western blot检测证实ORF5m和ORF6基因均获得正确表达,并且共表达的GP5m和M蛋白能够形成异源二聚体。将构建的表达质粒免疫小鼠,首免后6周共表达ORF5m和ORF6基因的pCI-ORF5m/ORF6免疫组小鼠血清中和抗体全部阳转,8周时最高可达到1:32,同时还可检测到较高的特异性细胞免疫应答,明显高于单独表达ORF5m基因的pCI-ORF5m免疫组。进一步将DNA疫苗免疫断奶仔猪,pCI-ORF5m/ORF6免疫组同样能诱发优于pCI-ORF5m免疫组的中和抗体和细胞免疫反应。上述研究结果表明采用ORF5m和ORF6双基因共表达策略能够显著提高PRRSV DNA疫苗效力,为PRRSV新型疫苗的研制提供了有用的数据。     

人乳头瘤病毒(HPV)58型DNA疫苗免疫原性的初步分析

为了检测HPV 58型不同L1基因的DNA疫苗的免疫原性,以pcDNA3.1为载体分别构建含HFV 58型不同L1基因的DNA疫苗,命名为L1h、L1h△c、L1S、L1SM和L1wt.用免疫印迹法检测各DNA疫苗的体外表达情况;各重组质粒与pcDNA3.1-h58L2和pcDNA3.1-GFP共转染293FT细胞,检测其形成假病毒的能力;并将各DNA疫苗肌肉注射免疫小鼠,利用假病毒中和实验检测中和抗体水平,用ELISPOT检测细胞免疫情况.结果显示,本实验成功构建了五种DNA疫苗,L1h△c的体外表达量最高,L1S和L1SM的表达量次之,L1wt没有表达;重组质粒L1S能够形成假病毒,而其他四种重组质粒均不能形成假病毒.L1S和L1h均可在小鼠体内诱导中和抗体,但L1S诱导的中和抗体的平均滴度为1:6 400,明显高于L1h诱导的中和抗体水平(平均滴度为1:48),而其他疫苗在小鼠体内未产生中和抗体.对五种疫苗均未检测出特异性的细胞免疫反应.结果提示,体外能够组装成假病毒的DNA疫苗在免疫动物后可诱导高滴度的中和抗体,为今后DNA疫苗的筛选提供参考.     

Effect of strain differences on the potency testing of rabies vaccines in mice

Antigenic differences between several strains of rabies virus, namely CVS, SAD and Flury (LEP) strains, were studied in cross-challenge experiments or cross-neutralization tests performed on sera of mice immunized with vaccines containing each strain. A typical wild fox virus strain was also included as challenge virus. The strain differences affected the relative potencies of the three vaccines in the European Pharmacopoeia mouse protection test for veterinary rabies vaccines, in that higher antigenic values were obtained when the vaccine strain was homologous to the challenge virus. This observation was confirmed by neutralizing antibody induction in mice.     

双抗体夹心ELISA与NIH法在狂犬病疫苗抗原检测中的比较

通过用单克隆抗体制备双抗体夹心ELISA,快速检测狂犬病疫苗中狂犬病毒糖蛋白(G)的含量,将狂犬病疫 苗的检定时间由28天缩短至2个工作日,以此缩短疫苗库存待检时间,提高疫苗的生产和销售效率,并最终替代 NIH动物法。将待检的狂犬病疫苗样品在同一性别12～14g昆明鼠体内作效力检定试验(NIH),同时用双抗体夹 心ELISA检测狂犬病疫苗中狂犬病毒G蛋白含量,用Microsoft Office Excel做出标准品和各样品疫苗的线性关 系图并计算出疫苗效力值E-NIH。结果用双抗体夹心ELISA所得的E-NIH与对应的小鼠效力试验所得结果M- NIH之间呈正相关性;同一批狂犬病疫苗分次测得E-NIH值在2．41～5．85之间,而相应的M-NIH值在5．11～ 10．19之间。从而得出E-NIH与相应的M-NIH之间存在明显的线性关系;与NIH法比较,ELISA具有重复性好、 成本低、快速等优点;用双抗体夹心ELISA替代小鼠效力试验是可能并可行的。     

Apoptosis plays an important role in experimental rabies virus infection.

Cultured rat prostatic adenocarcinoma (AT3) cells infected with the challenge virus standard (CVS) strain of fixed rabies virus showed characteristic morphologic features of apoptosis, evidence of oligonucleosomal DNA fragmentation, and expression of the Bax protein. CVS-infected Bcl-2-transfected AT3 cells did not demonstrate these features. Adult ICR mice inoculated intracerebrally with CVS showed morphologic changes of apoptosis, DNA fragmentation, and increased Bax expression in neurons, with changes most marked in the hippocampus and cerebral cortex. Ultrastructurally, some neurons demonstrated morphologic features more typical of necrosis. These studies provide evidence that apoptosis plays an important role in the pathogenesis of rabies virus infection.     

Cross-protection of mice against a global spectrum of rabies virus variants.

Rabies, a continuing worldwide problem, kills tens of thousands of people and millions of animals each year. The problem is most severe in developing countries, where cell culture-derived vaccines are unaffordable and the available nervous tissue-derived vaccines are often of questionable immunogenicity and may produce neurological complications. To determine the feasibility of developing a vaccine with worldwide applicability, we investigated whether recombinant vaccinia viruses expressing either the glycoprotein (G), the nucleoprotein (N), or both the G and N (GN) of the challenge virus strain (CVS) of rabies virus would cross-protect mice against 17 rabies virus isolates representing the spectrum of rabies virus variants found worldwide. The results were compared with the commercially available human diploid cell vaccine (HDCV). Among mice injected with any of the 17 viruses, > or = 95% were protected by vaccination with recombinant viruses expressing G or GN, and > or = 85% of the mice were protected by the HDCV. The recombinant virus expressing N was less protective, protecting against only 11 of the 17 viruses. Antibody prepared against the G of the strains used in the vaccines neutralized all 17 viruses, and sera from mice infected with any one virus variant cross-neutralized all of the other viruses. Thus, no antigenic differences that would potentiate vaccine failures were identified. These studies suggest that a single rabies virus strain or its G would protect globally against wild-type rabies viruses.     

Raccoon poxvirus recombinants expressing the rabies virus nucleoprotein protect mice against lethal rabies virus infection.

Raccoon poxvirus (RCN) recombinants expressing the rabies virus internal structural nucleoprotein (RCN-N) protected A/WySnJ mice against a lethal challenge with street rabies virus (SRV). Maximum survival was achieved following vaccination by tail scratch and footpad (FP) SRV challenge. RCN-N-vaccinated mice inoculated in the FP with SRV were resistant to infection for at least 54 weeks postvaccination. Protection was also elicited by RCN recombinants expressing the rabies virus glycoprotein (RCN-G). Vaccination with RCN-G evoked rabies virus neutralizing antibody. Rabies virus neutralizing antibody was not detected in RCN-N-vaccinated mice prior to or following SRV infection. Radioimmunoprecipitation assays showed that sera from RCN-N-vaccinated mice which survived SRV infection did not contain antibody to SRV structural protein G, M, or NS. The mechanism(s) of N-induced resistance appears to correlate with the failure of peripherally inoculated SRV to enter the central nervous system (CNS). Support for this correlation with resistance was documented by the observations that SRV-inoculated RCN-N-vaccinated mice did not develop clinical signs of CNS rabies virus infection, infectious SRV was not detected in the spinal cord or brain following FP challenge, and all RCN-N-vaccinated mice died following direct intracranial infection of the CNS with SRV. These results suggest that factors other than anti-G neutralizing antibody are important in resistance to rabies virus and that the N protein should be considered for incorporation with the G protein in recombinant vaccines.     

Characterization of M gene-deficient rabies virus with advantages of effective immunization and safety as a vaccine strain

Matrix (M) protein of rabies virus is known to play an important role in assembly and budding of the progeny virus. We generated an M gene-deficient rabies virus, RC-HLDeltaM, using a reverse genetics system of rabies virus RC-HL strain to develop a novel type of vaccine. RC-HLDeltaM infection was confined within a single cell in mouse neuroblastoma cells. This deficient virus failed to generate the progeny virus in the cells. In contrast, RC-HLDeltaM propagated in BHK cells inductively expressing M protein. Suckling and adult mice inoculated intracerebrally with the parental RC-HL strain showed lethal infection and transient body weight loss, respectively, whereas both suckling and adult mice inoculated with RC-HLDeltaM showed no symptoms. The neutralizing antibody against rabies virus was successfully induced by intramuscular immunization with 10(5) focus-forming units of RC-HLDeltaM but not UV-inactivated RC-HL. Intranasal immunization with RC-HLDeltaM resulted in almost the same antibody titer to rabies virus as that in the case of immunization with live RC-HL strain. These findings indicate that RC-HLDeltaM is a candidate for a novel rabies vaccine that is safer and more effective than are current vaccines.     

A Novel Rabies Vaccine Based on a Recombinant Parainfluenza Virus 5 Expressing Rabies Virus Glycoprotein

Untreated rabies virus (RABV) infection leads to death. Vaccine and postexposure treatment have been effective in preventing RABV infection. However, due to cost, rabies vaccination and treatment have not been widely used in developing countries. There are 55,000 human death caused by rabies annually. An efficacious and cost-effective rabies vaccine is needed. Parainfluenza virus 5 (PIV5) is thought to contribute to kennel cough, and kennel cough vaccines containing live PIV5 have been used in dogs for many years. In this work, a PIV5-vectored rabies vaccine was tested in mice. A recombinant PIV5 encoding RABV glycoprotein (G) (rPIV5-RV-G) was administered to mice via intranasal (i.n.), intramuscular (i.m.), and oral inoculation. The vaccinated mice were challenged with a 50% lethal challenge dose (LD₅₀) of RABV challenge virus standard 24 (CVS-24) intracerebrally. A single dose of 10⁶ PFU of rPIV5-RV-G was sufficient for 100% protection when administered via the i.n. route. The mice vaccinated with a single dose of 10⁸ PFU of rPIV5-RV-G via the i.m. route showed very robust protection (90% to 100%). Intriguingly, the mice vaccinated orally with a single dose of 10⁸ PFU of rPIV5-RV-G showed a 50% survival rate, which is comparable to the 60% survival rate among mice inoculated with an attenuated rabies vaccine strain, recombinant LBNSE. This is first report of an orally effective rabies vaccine candidate in animals based on PIV5 as a vector. These results indicate that rPIV5-RV-G is an excellent candidate for a new generation of recombinant rabies vaccine for humans and animals and PIV5 is a potential vector for oral vaccines.     

Oncogenicity of human N-ras oncogene and proto-oncogene introduced into retroviral vectors.

The N-ras gene is the only member of the ras family which has never been naturally transduced into a retrovirus. In order to study the in vitro and in vivo oncogenicity of N-ras and to compare its pathogenicity to that of H-ras, we have inserted an activated or a normal form of human N-ras cDNA into a slightly modified Harvey murine sarcoma virus-derived vector in which the H-ras p21 coding region had been deleted. The resulting constructions were transfected into NIH 3T3 cells. The activated N-ras-containing construct (HSN) induced 10(4) foci per microgram of DNA and was found to be as transforming as H-ras was. After infection of the transfected cells by either the ecotropic Moloney murine leukemia virus or the amphotropic 4070A helper viruses, rescued transforming viruses were injected into newborn mice. Both pseudotypes of HSN virus containing activated N-ras induced the typical Harvey disease with similar latency. However, we found that the virus which contained normal N-ras p21 (HSn) was also pathogenic and induced splenomegaly, lymphadenopathies, and sarcoma in mice after a latency of 3 to 7 weeks. In addition, Moloney murine leukemia virus pseudotypes of N-ras caused neurological disorders in 30% of the infected animals. These results differed markedly from those of previous experiments in which we had inserted the activated form of N-ras in the pSV(X) vector: the resulting SVN-ras virus was transforming on NIH 3T3 cells but was poorly oncogenic in vivo (M. Souyri, C. F. Koehne, P. V. O'Donnel, T. H. Aldrich, M. E. Furth, and E. Fleissner, Virology 158:69-78). However, similarly poor oncogenicity was also observed when the v-H-ras coding sequence was inserted in pSV(X) vector, which indicated that the vector sequences play a crucial role in the pathogenicity of a given oncogene. Altogether, these data demonstrated unequivocally that N-ras is potentially as oncogenic as H-ras and that such oncogenic effect could depend on the vector environment.     

The induction of protective immune response in mice vaccinated by recombinant avian adenovirus CELO expressing glycoprotein G of the rabies virus

The recombinant avian adenovirus CELO-gpRb expressing glycoprotein G of rabies virus (strain TS-80, ARRIW&M, Pokrov, Russia) was used for mice vaccination against rabies. Double intramuscular immunization by recombinant CELO-gpRb adenovirus in a dose 10(9) pfu per mouse caused the induction of virus neutralizing antibodies (VNA) synthesis in 78% of mice, while twice repeated intradermal injections of the recombinant adenovirus failed to induce the VNA production. The protection level in groups of vaccinated mice after intracerebral injection of CVS rabies virus in a dose of 100 MLD50 was equal to 45% at single intramuscular immunization and to 91% after twice repeated intramuscular immunization. The recombinant adenoviral vaccine against rabies, based on CELO viral genome, has a good perspective for domestic and wild animal vaccination, not only due to rather high protection level, but also because the production of adenoviral CELO vaccine in chicken embryos is of high technology and inexpensive.     

改良抗体结合实验检测灭活狂犬病疫苗效价

目的:建立抗体结合试验检测狂犬病疫苗(aG株)效价的方法。方法:将待检测疫苗与疫苗标准品梯度稀释后分别加入人抗狂犬病毒免疫球蛋白国家标准品中和1 h,之后加入80%感染剂量的狂犬病毒CVS-11,体外中和1h后接种BSR细胞,培养24 h后免疫荧光染色,在显微镜下观察结果,通过检测剩余病毒量计算待检疫苗的效价,同时与小鼠中和试验法(NIH法)测定狂犬病疫苗效价进行比较。结果:2种方法对8个样品效价的检测结果无显著统计学差异(P=0.997,配对t检验)。结论:初步建立了改良抗体结合试验,可用于狂犬病疫苗中间产品的质量控制。