抗IBDV独特型抗体杂交瘤细胞株的建立及其产物生物学特性测定

用纯化的抗IBDV IgG免疫Balb/c小鼠,取其脾细胞与SP2/0细胞在聚乙二醇（PEG）作用下融合,ELISA法检测筛选,经有限稀释法克隆3次,获得2株（5F₄株,2B₆株）分泌抗IBDV独特型抗体的杂交瘤细胞株,其能诱生Balb/c小鼠产生ELISA抗体效价分别为1∶12 800和1∶25 600的含抗IBDV独特型抗体的腹水。用此独特型抗体与福氏完全佐剂和福氏不完全佐剂乳化制备成抗IBDV独特型抗体疫苗,免疫接种SPF鸡和普通京白公鸡,然后用IBDV强毒株(SD株)2000 ELD50攻毒,SPF鸡免疫组50只,有5只发病、2只死亡;对照组10只全部发病,8只死亡。普通京白鸡免疫组30只,有7只发病, 1只死亡;对照组10只全部发病,6只死亡。经X²检验,SPF鸡X²＝34.15,普通鸡X²＝16.68,查X²值表得X²_(1)0.01＝6.63, SPF鸡X²和普通鸡X2均大于X²_{(1) 0.01}（P＜0.01）,由此表明抗IBDV独特型抗体疫苗具有很好的免疫原性,对易感日龄的SPF鸡和普通鸡均具有极其明显的保护作用。从而证实了抗IBDV独特型抗体疫苗有潜在的研究和应用价值。     

携带新城疫病毒DNA疫苗的鼠伤寒沙门氏菌及其安全性与免疫效力

根据GenBank中发表的新城疫病毒(NDV)融合蛋白(F)基因序列,设计一对引物,通过RTPCR扩增出鹅源新城疫病毒分离株JS5F基因,测序确认后,将其克隆入真核表达载体pVAX1,获得重组真核表达质粒pVAX1F。将pVAX1F转化减毒鼠伤寒沙门氏菌SL7207,构建成携带DNA疫苗的重组沙门氏菌SL7207(pVAX1F)。重组菌以不同剂量口服免疫1日龄雏鸡,结果表明,细菌对雏鸡具有良好的安全性,且不影响鸡的增重。将SL7207(pVAX1F)分别以108CFU和109CFU的剂量3次口服免疫1日龄商品代伊莎褐蛋鸡,抗体检测结果显示,在三免后1周,SL7207(pVAX1F)109CFU剂量组的血清抗体效价与空载体组之间存在显著性差异(p<0.05)。重组菌两个剂量组在首免后2周开始出现粘膜抗体,并于二免后2周和3周达到较高水平。免疫保护试验结果显示,SL7207(pVAX1F)109CFU剂量组的保护率为77.27%,与空载体组之间存在显著性差异(p<0.05)。     

Preparation and Efficacy of a Live Newcastle Disease Virus Vaccine Encapsulated in Chitosan Nanoparticles

Background

Newcastle disease (ND) is a highly contagious viral disease of poultry caused by pathogenic strains of the Newcastle disease virus (NDV). Live NDV vaccines are administered by drinking water, eyedrops or coarse aerosol spray. To further enhance mucosal immune responses, chitosan nanoparticles were developed for the mucosal delivery of a live NDV vaccine.

Methodology/Principal Findings

A lentogenic live-virus vaccine (strain LaSota) against NDV encapsulated in chitosan nanoparticles were developed using an ionic crosslinking method. Chitosan nanoparticles containing the lentogenic live-virus vaccine against NDV (NDV-CS-NPs) were produced with good morphology, high stability, a mean diameter of 371.1 nm, an encapsulation rate of 77% and a zeta potential of +2.84 mV. The Western blotting analysis showed that NDV structural proteins were detected in NDV-CS-NPs. The virus release assay results of NDV-CS-NPs indicated that NDV was released from NDV-CS-NPs. Chickens immunized orally or intranasally with NDV-CS-NPs were fully protected whereas one out of five chickens immunized with the LaSota live NDV vaccine and three out of five chickens immunized with the inactivated NDV vaccine were dead after challenge with the highly virulent NDV strain F48E9.

Conclusions/Significance

NDV-CS-NPs induced better protection of immunized specific pathogen free chickens compared to the live NDV vaccine strain LaSota and the inactivated NDV vaccine. This study lays a foundation for the further development of mucosal vaccines and drugs encapsulated in chitosan nanoparticles.     

Antigenic variation of Newcastle disease viruses isolated from wild ducks in Japan

Nineteen strains of Newcastle disease virus (NDV) isolated from wild ducks in Japan were placed into 4 distinct antigenic groups on the basis of their reactivities to 8 monoclonal antibodies against the HN molecule of NDV in hemagglutination inhibition tests. The NDV strains of duck origin were antigenically distinct from NDV-B1 and NDV-Miyadera originated from chickens, and varied in their virulence to chicken embryos. No apparent correlation was found between the antigenicity of the HN molecule and virulence.     

Evaluation of the Newcastle disease virus F and HN proteins in protective immunity by using a recombinant avian paramyxovirus type 3 vector in chickens

Newcastle disease virus (NDV) belongs to serotype 1 of the avian paramyxoviruses (APMV-1) and causes severe disease in chickens. Current live attenuated NDV vaccines are not fully satisfactory. An alternative is to use a viral vector vaccine that infects chickens but does not cause disease. APMV serotype 3 infects a wide variety of avian species but does not cause any apparent disease in chickens. In this study, we constructed a reverse-genetics system for recovery of infectious APMV-3 strain Netherlands from cloned cDNAs. Two recombinant viruses, rAPMV3-F and rAPMV3-HN, were generated expressing the NDV fusion (F) and hemagglutinin-neuraminidase (HN) proteins, respectively, from added genes. These viruses were used to immunize 2-week-old chickens by the oculonasal route in order to evaluate the contribution of each protein to the induction of NDV-specific neutralizing antibodies and protective immunity. Each virus induced high titers of NDV-specific hemagglutination inhibition and serum neutralizing antibodies, but the response to F protein was greater. Protective immunity was evaluated by challenging the immunized birds 21 days later with virulent NDV via the oculonasal, intramuscular, or intravenous route. With oculonasal or intramuscular challenge, all three recombinant viruses (rAPMV3, rAPMV3-F, and rAPMV3-HN) were protective, while all unvaccinated birds succumbed to death. These results indicated that rAPMV3 alone can provide cross-protection against NDV challenge. However, with intravenous challenge, birds immunized with rAPMV3 were not protected, whereas birds immunized with rAPMV3-F alone or in combination with rAPMV3-HN were completely protected, and birds immunized with rAPMV3-HN alone were partially protected. These results indicate that the NDV F and HN proteins are independent neutralization and protective antigens, but the contribution by F is greater. rAMPV3 represents an avirulent vaccine vector that can be used against NDV and other poultry pathogens.     

A recombinant Newcastle disease virus (NDV) expressing VP2 protein of infectious bursal disease virus (IBDV) protects against NDV and IBDV

Infectious bursal disease virus (IBDV) causes a highly immunosuppressive disease in chickens. Currently available, live IBDV vaccines can lead to generation of variant viruses. We have developed an alternative vaccine that will not create variant IBDV. By using the reverse genetics approach, we devised a recombinant Newcastle disease virus (NDV) vector from a commonly used vaccine strain LaSota to express the host-protective immunogen VP2 of a variant IBDV strain GLS-5. The gene encoding the VP2 protein of the IBDV was inserted into the most 3'-proximal locus of a full-length NDV cDNA for high-level expression. We successfully recovered the recombinant virus, rLaSota/VP2. The rLaSota/VP2 was genetically stable, at least up to 12 serial passages in chicken embryos, and was shown to express the VP2 protein. The VP2 protein was not incorporated into the virions of recombinant virus. Recombinant rLaSota/VP2 replicated to a titer similar to that of parental NDV strain LaSota in chicken embryos and cell cultures. To assess protective efficacy of the rLaSota/VP2, 2-day-old specific-pathogen-free chickens were vaccinated with the recombinant virus and challenged with a highly virulent NDV strain Texas GB or IBDV variant strain GLS-5 at 3 weeks postvaccination. Vaccination with rLaSota/VP2 generated antibody responses against both NDV and IBDV and provided 90% protection against NDV and IBDV. Booster immunization induced higher levels of antibody responses against both NDV and IBDV and conferred complete protection against both viruses. These results indicate that the recombinant NDV can be used as a vaccine vector for other avian pathogens.     

Complete genome sequences of Newcastle disease virus strains circulating in chicken populations of Indonesia

Eight highly virulent Newcastle disease virus (NDV) strains were isolated from vaccinated commercial chickens in Indonesia during outbreaks in 2009 and 2010. The complete genome sequences of two NDV strains and the sequences of the surface protein genes (F and HN) of six other strains were determined. Phylogenetic analysis classified them into two new subgroups of genotype VII in the class II cluster that were genetically distinct from vaccine strains. This is the first report of complete genome sequences of NDV strains isolated from chickens in Indonesia.     

Newcastle disease virus-based live attenuated vaccine completely protects chickens and mice from lethal challenge of homologous and heterologous H5N1 avian influenza viruses

H5N1 highly pathogenic avian influenza virus (HPAIV) has continued to spread and poses a significant threat to both animal and human health. Current influenza vaccine strategies have limitations that prevent their effective use for widespread inoculation of animals in the field. Vaccine strains of Newcastle disease virus (NDV), however, have been used successfully to easily vaccinate large numbers of animals. In this study, we used reverse genetics to construct a NDV that expressed an H5 subtype avian influenza virus (AIV) hemagglutinin (HA). Both a wild-type and a mutated HA open reading frame (ORF) from the HPAIV wild bird isolate, A/Bar-headed goose/Qinghai/3/2005 (H5N1), were inserted into the intergenic region between the P and M genes of the LaSota NDV vaccine strain. The recombinant viruses stably expressing the wild-type and mutant HA genes were found to be innocuous after intracerebral inoculation of 1-day-old chickens. A single dose of the recombinant viruses in chickens induced both NDV- and AIV H5-specific antibodies and completely protected chickens from challenge with a lethal dose of both velogenic NDV and homologous and heterologous H5N1 HPAIV. In addition, BALB/c mice immunized with the recombinant NDV-based vaccine produced H5 AIV-specific antibodies and were completely protected from homologous and heterologous lethal virus challenge. Our results indicate that recombinant NDV is suitable as a bivalent live attenuated vaccine against both NDV and AIV infection in poultry. The recombinant NDV vaccine may also have potential use in high-risk human individuals to control the pandemic spread of lethal avian influenza.     

Embryonic infection with the endogenous avian leukosis virus Rous-associated virus-0 alters responses to exogenous avian leukosis virus infection.

We inoculated susceptible chicken embryos with the endogenous avian leukosis virus Rous-associated virus-0 (RAV-0) on day 6 of incubation. At 1 week after hatching, RAV-0-infected and control chickens were inoculated with either RAV-1 or RAV-2, exogenous viruses belonging to subgroups A and B, respectively. The chickens injected with RAV-0 as embryos remained viremic with exogenous virus longer and either failed to develop type-specific humoral immunity to exogenous virus or developed it later than the control chickens not inoculated with RAV-0. The RAV-0-injected chickens also developed neoplasms at a much higher frequency than did the control chickens. We suggest that the lower immune responses of the RAV-0-injected chickens were due to an immunological tolerance to envelope group-specific glycoproteins shared among endogenous and exogenous viruses.     

传染性法氏囊病不同代次细胞毒免疫效果的研究

将从山东省东营分离到的1株传染性法氏囊病病毒(IBDV)野毒(暂命名 IBDV SDDY株,经鉴定该株与 IB DV STC株具有较高的同源性)经 SPF 鸡胚传代,然后转为细胞培养,取第 20 代、21 代、25 代毒,以 1 倍剂量(3000TCID50/0.2mL )和5倍剂量不同的免疫剂量,分别在7日龄、14日龄对商品代海蓝褐蛋鸡进行免疫,并于免疫前用 IBD ELISA试剂盒检测 IBDV母源抗体水平,于 35 日龄用传染性法氏囊病病毒超强毒 (very virulent In fectious Bursal Disease Virus, vvIBDV )GX 8/99攻毒,在攻毒前再次检测IBDV的抗体水平,攻毒后观察记录各分组鸡的致病率和死亡率,并计算免疫器官体重指数,观察免疫器官的组织损伤情况。试验结果表明:3 代毒都具有较高免疫原性,但是20代毒仍具有较大的毒性,7 日龄接种会引起法氏囊的萎缩,造成持续的组织损伤;21 代毒、25代毒保护率高,无免疫抑制,是比较理想的疫苗来源;7日龄免疫较14日龄免疫更易造成组织损伤和免疫抑制,14日龄免疫较为合适。     

Development of an effective polyvalent vaccine against both Marek's and Newcastle diseases based on recombinant Marek's disease virus type 1 in commercial chickens with maternal antibodies

An earlier report (M. Sakaguchi et al., Vaccine 16:472-479, 1998) showed that recombinant Marek's disease virus type 1 (rMDV1) expressing the fusion (F) protein of Newcastle disease virus (NDV-F) under the control of the simian virus 40 late promoter [rMDV1-US10L(F)] protected specific pathogen-free chickens from NDV challenge, but not commercial chickens with maternal antibodies against NDV and MDV1. In the present study, we constructed an improved polyvalent vaccine based on MDV1 against MDV and NDV in commercial chickens with maternal antibodies. The study can be summarized as follows. (i) We constructed rMDV1 expressing NDV-F under the control of the MDV1 glycoprotein B (gB) promoter [rMDV1-US10P(F)]. (ii) Much less NDV-F protein was expressed in cells infected with rMDV1-US10P(F) than in those infected with rMDV1-US10L(F). (iii) The antibody response against NDV-F and MDV1 antigens of commercial chickens vaccinated with rMDV1-US10P(F) was much stronger and faster than with rMDV1-US10L(F), and a high level of antibody against NDV-F persisted for over 80 weeks postvaccination. (iv) rMDV1-US10P(F) was readily reisolated from the vaccinated chickens, and the recovered viruses were found to express NDV-F. (v) Vaccination of commercial chickens having maternal antibodies to rMDV1-US10P(F) completely protected them from NDV challenge. (vi) rMDV1-US10P(F) offered the same degree of protection against very virulent MDV1 as the parental MDV1 and commercial vaccines. These results indicate that rMDV1-US10P(F) is an effective and stable polyvalent vaccine against both Marek's and Newcastle diseases even in the presence of maternal antibodies.     

鸡新城疫口服DNA疫苗的安全性、稳定性与免疫效力

将含新城疫病毒（NDV）F₄₈E₉株融合蛋白（F）基因的真核表达质粒pcDNA3-F的减毒鼠伤寒沙门氏菌ZJ111株（ZJ111/pcDAN3-F）口服接种小鼠和雏鸡。结果表明：利用该减毒株作为载体传递DNA疫苗具有相对安全性。用酶切和PCR鉴定法证实在体内外无抗生素存在的条件下重组质粒在受体菌ZJ111菌株内比较稳定。ZJ111/pcDAN3-F以每羽10⁸cfu免疫雏鸡,2周后二免,二免后4周攻击致死剂量的强毒株F₄₈E₉,观察其免疫效力。结果表明：重组ZJ111/pcDNA3-F菌株不仅能诱导雏鸡产生抗NDV抗体,而且能诱导法氏囊B淋巴细胞和胸腺T淋巴细胞的增殖反应,对强毒株攻击的保护率为66.7%,高于pcDNA3-F裸质粒DNA疫苗注射免疫组（50%）。上述结果初步提示减毒沙门氏菌为载体传递DNA疫苗具有良好的安全性、稳定性和免疫原性,为研制低成本、实用化的口服禽类DNA疫苗奠定了基础。     

Rescue and preliminary application of a recombinant newcastle disease virus expressing green fluorescent protein gene

Based on the complete genome sequence of Newcastle disease virus (NDV) ZJI strain, seven pairs of primers were designed to amplify a cDNA fragment for constructing the plasmid pNDV/ZJI, which contained the full-length cDNA of the NDV ZJI strain. The pNDV/ZJI, with three helper plasmids, pCIneoNP, pCIneoP and pCIneoL, were then cotransfected into BSR-T7/5 cells expressing T7 RNA polymerase. After inoculation of the transfected cell culture supernatant into embryonated chicken eggs from specific-pathogen-free (SPF) flock, an infectious NDV ZJI strain was successfully rescued. Green fluorescent protein (GFP) gene was amplified and inserted into the NDV full-length cDNA to generate a GFP-tagged recombinant plasmid pNDV/ZJIGFP. After cotransfection of the resultant plasmid and the three support plasmids into BSR-T7/5 cells, the recombinant NDV, NDV/ZJIGFP, was rescued. Specific green fluorescence was observed in BSR-T7/5 and chicken embryo fibroblast (CEF) cells 48h post-infection, indicating that the GFP gene was expressed at a relatively high level. NDV/ZJIGFP was inoculated into 10-day-old SPF chickens by oculonasal route. Four days post-infection, strong green fluorescence could be detected in the kidneys and tracheae, indicating that the recombinant GFP-tagged NDV could be a very useful tool for analysis of NDV dissemination and pathogenesis.     

Rescue and Preliminary Application of a Recombinant Newcastle Disease Virus Expressing Green Fluorescent Protein Gene

Based on the complete genome sequence of Newcastle disease virus (NDV) ZJI strain, seven pairs of primers were designed to amplify a cDNA fragment for constructing the plasmid pNDV/ZJI, which contained the full-length cDNA of the NDV ZJI strain. The pNDV/ZJI, with three helper plasmids, pCIneoNP, pCIneoP and pCIneoL, were then cotransfected into BSR-T7/5 cells expressing T7 RNA polymerase. After inoculation of the transfected cell culture supernatant into embryonated chicken eggs from specific-pathogen-free (SPF) flock, an infectious NDV ZJI strain was successfully rescued. Green fluorescent protein (GFP) gene was amplified and inserted into the NDV full-length cDNA to generate a GFP-tagged recombinant plasmid pNDV/ZJIGFP. After cotransfection of the resultant plasmid and the three support plasmids into BSR-T7/5 cells, the recombinant NDV, NDV/ZJIGFP, was rescued. Specific green fluorescence was observed in BSR-T7/5 and chicken embryo fibroblast (CEF) cells 48h post-infection, indicating that the GFP gene was expressed at a relatively high level. NDV/ZJIGFP was inoculated into 10-day-old SPF chickens by oculonasal route. Four days post-infection, strong green fluorescence could be detected in the kidneys and tracheae, indicating that the recombinant GFP-tagged NDV could be a very useful tool for analysis of NDV dissemination and pathogenesis.     

Development of resistance to coccidiosis in the absence of merogonic development using X-irradiated Eimeria acervulina oocysts

Sporulated oocysts of the protozoan Eimeria acervulina were subjected to 0, 10, 15, 20, or 30 krad of X-irradiation and inoculated into susceptible outbred chickens to determine if radioattenuated coccidia could induce protection against parasite challenge. Irradiation treatment had an appreciable dose-dependent effect on parasite development. Insignificant numbers of oocysts were produced by chickens inoculated with parasites that had been exposed to greater than 10 krad X-irradiation. Sporozoites exposed to 15 or 20 krad irradiation conferred significant protection against the appearance of intestinal lesions after parasite challenge. Sporozoites subjected to the highest dose level (30 krad) did not produce any significant level of protection. To investigate this phenomenon further and assess intracellular parasite development, susceptible outbred strains of chickens were administered either nonirradiated (0 krad) oocysts or oocysts that were exposed to an optimal dose (15 krad) or a high dose (30 krad) of X-irradiation. Immunofluorescence staining of tissue sections from each treatment group at various intervals after the initial administration of irradiated parasites indicated that sporozoites exposed to 15 krad irradiation were as capable of invading the host intestinal epithelium as nonirradiated sporozoites. However, at 48, 60, 72, and 96 hr, there was a marked reduction in merogonic development in groups receiving irradiated sporozoites compared to those inoculated with nonirradiated parasites. The latter parasites underwent profuse merogonic development; in contrast, irradiated parasites demonstrated little (15 krad) or no (30 krad) merogonic development. These results suggest that induction of a protective immune response occurs during a critical period early in intracellular development of E. acervulina.     

鸡新城疫病毒HeB02分离株F基因的克隆及其DNA疫苗的研究

根据GenBank报道的鸡新城疫病毒F基因序列设计了一对引物,以鸡新城疫病毒HeB02分离株基因组为模板,通过RT-PCR扩增出了1·66kb左右的F基因片段,序列分析表明HeB02株F基因与国内标准强毒株F48E9及弱毒疫苗La Sota和Clone30的F基因核苷酸序列的同源性分别为88·1%、84·9%和83·8%。将HeB02株F基因插入真核表达载体pVAX1中,构建了真核表达质粒pSV-F,通过脂质体转染COS-7细胞,SDS-PAGE分析可见表达的特异蛋白条带;Western blot、ELISA和中和试验检测结果表明:真核表达的蛋白与抗新城疫病毒的抗体发生特异性反应,说明F蛋白具有很好的免疫原性。采用活体电击法以真核表达质粒pSV-F免疫3周龄SPF鸡,剂量为50μg/只,3周后加强免疫1次,5周后以100倍鸡胚感染剂量(EID)的F基因同源病毒对所有鸡进行攻毒,攻毒前后每周分别以喉拭子进行病毒分离和HI效价测定。结果显示对照组在攻毒前一直没有检测到抗体效价,攻毒后检测效价为3·0log2±1·40,并且于攻毒后第9天全部死亡;活疫苗组和实验组免疫后第2周检测到抗体效价,第5周最高,HI效价分别为8·3log2±1·30和7·2log2±1·23,攻毒1周后HI效价分别达9·8log2±1·55和8·9log2±1·77,极显著高于对照组(P<0·01)。免疫组未分离到新城疫病毒,对照组全部分离到新城疫病毒。表明所构建的F基因真核表达质粒可作为候选基因疫苗诱导鸡产生免疫保护反应。     

表达H5亚型AIV血凝素的重组NDV构建及免疫原性

利用反向遗传技术获得表达H5亚型禽流感病毒(AIV)血凝素(HA)的新城疫病毒(NDV)。克隆NDV clone 30的全长基因,通过在NDV的融合蛋白基因和血凝素-神经氨酸酶(HN)基因之间插入编码高致病性AIV分离株A/chicken/italy/8/98(H5N2)的血凝素基因开放阅读框从而获得两株重组新城疫病毒NDVH5和NDVH5m。NDVH5感染的细胞可以检测到两种HA转录产物。对于重组病毒NDVH5m,NDV位于HA ORF的转录终止信号序列被沉默突变消除,产生2.7个全长HA转录产物的折叠,从而使修饰过的HA得到稳定地高表达。1日龄小鸡的脑内接种证实了两种重组病毒均无致病性。鸡群在NDVH5m诱导产生的NDV和H5亚型AIV HA特异性抗体的免疫力下能够免于致死剂量的NDV与高致病性AIV的感染。血清学研究结果表明NDVH5m免疫鸡群产生的抗体可结合NP蛋白抗体的检测从而用于区分免疫和感染AIV的动物。因此,NDVH5m重组病毒可作为抗NDV和AIV的"二联疫苗",也可成为控制AJ的标记疫苗。     

Comprehensive Analysis and Characterization of Linear Antigenic Domains on HN Protein from Genotype VII Newcastle Disease Virus Using Yeast Surface Display System

Circulation of genotype VII Newcastle disease virus (NDV) has posed a great threat for the poultry industry worldwide. Antibodies against Hemagglutinin-neuraminidase (HN), a membrane protein of NDV with critical roles in NDV infection, have been reported to provide chickens protection from NDV infection. In this study, we comprehensively analyzed the in vivo antibody responses against the linear antigenic domains of the HN protein from genotype VII NDV using a yeast surface display system. The results revealed four distinct regions of HN, P1 (1-52aa), P2 (53-192aa), P3 (193-302aa) and P4 (303-571aa), respectively, according to their antigenic potency. Analysis by FACS and ELISA assay indicated P2 to be the dominant linear antigenic domain, with the immunogenic potency to protect the majority of chickens from NDV challenge. In contrast, the P1, P3 and P4 domains showed weak antigenicity in vivo and could not protect chickens from NDV challenge. These results provide important insight into the characteristic of humoral immune responses elicited by HN of NDV in vivo.     

Cultivation of Eimeria tenella in Japanese quail embryos (Coturnix coturnix japonica).

Complete development of Eimeria tenella in Japanese quail embryos was observed. Sporozoites were inoculated into the allantoic cavity of 7-day-old Japanese quail embryos (Coturnix coturnix japonica), after which the infected embryos were incubated at 41 C. In the chorioallantoic membrane mature first generation schizonts, mature second generation schizonts, and gametes were detected at 48 hr postinoculation of sporozoites (PI), 84 hr PI, and 126 hr PI, respectively. Mature gametes and zygotes were found at 132 hr PI, and oocysts were detected at 138 hr PI. Mortality of embryos increased with increment of inoculum size of sporozoites. LD50 was 1.7 x 10(2) sporozoites. Oocyst production was also dependent on inoculum size. Oocysts harvested from embryos sporulated. The oocysts were inoculated into 13-day-old chickens, and oocysts, capable of sporulating normally, were recovered from ceca 7 days after inoculation.     

用电穿孔方法研究 H5N1 禽流感病毒DNA 疫苗对动物的免疫保护作用

为了研究 H5N1 DNA 疫苗对小鼠和鸡的保护效率,用 H5N1 禽流感病毒 HA DNA 疫苗免疫 BALB/c 小鼠和 SPF 鸡 . 小鼠和鸡分别经电穿孔和肌肉注射免疫两次,间隔为 3 周 . 二次免疫后,用致死量的同源病毒进行攻毒实验 . 空白对照组在攻毒后全部死亡,而经电穿孔免疫的小鼠和鸡均获得了完全的保护,并能有效地抑制病毒在小鼠肺脏和鸡泄殖腔的繁殖 . 同时,电穿孔免疫的小鼠和鸡均产生了高水平的特异性抗体 . 经电穿孔免疫的小鼠攻毒后 CTL 反应明显加强 . 这些结果表明, HA DNA 疫苗能有效地保护小鼠和鸡对禽流感病毒的感染,同时也表明电穿孔免疫是 DNA 疫苗免疫的有效途径之一 .