SIMULATED NATURAL INFECTION OF CHICKENS WITH AUSTRALIAN LENTOGENIC NEWCASTLE DISEASE VIRUS AND SUBSEQUENT CHALLENGE WITH VIRULENT VIRUS

A total of 291 eight-week-old chickens were exposed to chickens infected with either of two Australian lentogenic strains (V4 and AVL NDV-1) of Newcastle disease virus (NDV). At 3 weeks after exposure, all chickens exposed to V4 infected chickens had developed haemagglutination-inhibition (HI) antibody. All chickens exposed to AVL NDV-1 virus infected chickens had developed HI antibody 5 weeks later. This sudden late appearance of HI antibody, to titres higher than those observed with V4 chickens, was explained by V4 virus being introduced to the AVL NDV-1 group of chickens. When groups of these chickens were challenged with Roakin virus (mesogenic NDV) at 3 weeks and Fontana 1083 virus (viscerotropic velogenic NDV) and Texas GB virus (neutrotropic NDV) at 3, 5, 10 and 21 weeks only three chickens developed clinical illness one of which died. These chickens were one AVL NDV-1 chicken contact challenged with Fontana 1083 virus at 3 weeks, one V4 chicken oronasally challenged with Texas GB virus at 5 weeks and one V4 chicken challenged oronasally with Fontana 1083 virus at 10 weeks. Susceptible non-vaccinated chickens died soon after challenge. Challenge by oronasal infection with 10(7.0) ELD50 of virus or contact with susceptible infected chickens enabled virulent virus to be isolated from most chickens and was accompanied by a large anamnestic increase in serum HI antibody.     

Pathogenicity and cross-protection of pigeon paramyxovirus-1 and Newcastle disease virus in young chickens

Avian paramyxovirus-1 (PMV-1) isolates from Delaware racing pigeons were compared with Newcastle disease virus (NDV) in pathogenicity and cross-protection studies in young chickens. The pathogenicity of pigeon PMV-1 isolates was more closely related to mesogenic (Roakin) NDV than to lentogenic (La Sota) or velogenic (Texas GB) NDV strains. Pigeon PMV-1 produced 100% mortality in 1-day-old NDV-susceptible chickens following intratracheal and intracerebral inoculation. Laboratory tests often used in conjunction with chicken pathogenicity procedures for patho-typing NDV gave conflicting results. Pigeon PMV-1 isolates produced large clear plaques (up to 3.5 mm) in chicken-embryo-fibroblast cultures. Chicken embryo mean death times were considerably greater for pigeon PMV-1 (88 and 109 hr) than for Roakin (66 hr) and Texas GB (48 hr). B1 strain NDV and pigeon PMV-1 produced complete cross-protection in challenge studies in chickens. Extensive cross-reaction between pigeon PMV-1 and NDV occurred in hemagglutination-inhibition tests using polyclonal antisera. However, pigeon PMV-1 and NDV were readily distinguishable using a NDV monoclonal antibody, 2F12.     

Protection of chickens from Newcastle and Marek's diseases with a recombinant herpesvirus of turkeys vaccine expressing the Newcastle disease virus fusion protein.

Recombinant strains of herpesvirus of turkeys (HVT) were constructed that contain either the fusion protein gene or the hemagglutinin-neuraminidase gene of Newcastle disease virus (NDV) inserted into a nonessential gene of HVT. Expression of the NDV antigens was regulated from a strong promoter element derived from the Rous sarcoma virus long terminal repeat. Recombinant HVT strains were stable and fully infectious in cell culture and in chickens. Chickens receiving a single intra-abdominal inoculation at 1 day of age with recombinant HVT expressing the NDV fusion protein had an immunological response and were protected (> 90%) against lethal intramuscular challenge at 28 days of age with the neurotropic velogenic NDV strain Texas GB. Recombinant HVT expressing the NDV hemagglutinin-neuraminidase provided partial protection (47%) against the same challenge. Chickens vaccinated with recombinant HVT vaccines had low levels of protection against NDV replication in the trachea when challenged ocularly. Recombinant HVT vaccines and the parent HVT strain provided similar levels of protection to chickens challenged with the very virulent RB1B strain of Marek's disease virus, indicating that insertion of foreign sequences into the HVT genome did not compromise the ability of HVT to protect against Marek's disease.     

Vaccination against Newcastle disease with a recombinant baculovirus hemagglutinin-neuraminidase subunit vaccine

Vaccination of chickens with an oil-emulsion vaccine containing a recombinant baculovirus that expressed the hemagglutinin-neuraminidase (HN) of Newcastle disease virus (NDV)-induced hemagglutination-inhibition (HI) and virus-neutralizing antibodies against NDV. HI antibody titers obtained in response to vaccination with the live recombinant virus were higher than those obtained when the recombinant was inactivated with beta-propiolactone, and the titers were lower than those obtained in response to the same HN concentrations in live or beta-propiolactone-inactivated NDV strain B1. The serological response to the recombinant baculovirus was differentiated from the response to NDV by an enzyme-linked immunosorbent assay in which purified NDV nucleoprotein was used as antigen. Chickens vaccinated with the live recombinant or with inactivated NDV resisted an oculonasal challenge with the neurotropic velogenic Texas GB strain of NDV, which was lethal in unvaccinated controls. It was concluded that the HN protein of NDV expressed as a subunit by a recombinant baculovirus was protective against Newcastle disease.     

Development of a virosome vaccine for Newcastle disease virus

In an effort to protect chickens against Newcastle disease (ND), a nonreplicating virosome vaccine was produced by solubilization of Newcastle disease virus (NDV) with Triton X-100 followed by detergent removal with SM2 Bio-Beads. Biochemical analysis indicated that the NDV virosomes had similar characteristics as the parent virus and contained both the fusion and hemagglutinin-neuraminidase proteins. To target the respiratory tract, specific-pathogen-free chickens were immunized intranasally and intratracheally with the NDV virosome vaccine. This vaccine was compared with a standard NDV (LaSota) live-virus vaccine for commercial poultry. Seroconversion (> or = four fold increase in hemagglutination inhibition [HI] antibody titers) was achieved in all birds vaccinated with the virosome vaccine. Upon lethal challenge with a velogenic NDV strain (Texas GB), all birds receiving either vaccination method were protected against death. Antibody levels against NDV, as determined by enzyme-linked immunosorbent assay and HI titer, were comparable with either vaccine and increased after virus challenge. These results demonstrate the potential of virosomes as an effective tool for ND vaccination.     

Characterization of a battery of monoclonal antibodies for differentiation of Newcastle disease virus and pigeon paramyxovirus-1 strains

Twenty monoclonal antibodies (MCAs) prepared against the velogenic GB-Texas strain of Newcastle disease virus (NDV) and the type 1 pigeon paramyxovirus (PPMV-1) were characterized and examined as potential immunodiagnostic reagents. All MCAs generated were found to bind specifically, but with varying reactivity, to various NDV strains in direct binding assays. In addition, MCA 15C4 neutralized and inhibited hemagglutination (HA) of all lentogenic, mesogenic, and velogenic NDV strains tested but not the PPMV-1 strain. Antibody 10D11 also inhibited HA activity, but inhibition was more selective and limited to the mesogenic and domestic or indigenous velogenic strains of NDV. MCA 79 reacted in all serologic assays with an antigenic site common to all serotype 1 avian paramyxoviruses. Passive immunization studies involving three different neutralizing MCAs (35, 79, and 15C4) showed that enhanced, but not complete, protection against virulent NDV challenge was provided when the three MCAs were administered in combination.     

NDV长春株生物学特性及与国外毒株HN蛋白基因的同源性比较

以新城疫病毒（NDV）长春株接种9日龄SPF鸡胚增殖后,进行了蚀斑纯化（三代）鉴定,差数、蔗糖密度梯度离心提纯和生物学特性鉴定。结果表明,该病毒的鸡胚平均致死时间（MDT）大于168h,雏鸡脑内致死性（ICPI）为0.25,雏鸡静脉致死性（IVPI）为0,血凝解脱时间超过120h,血凝素热稳定性56℃ 5min 仍具有血凝活性。系统发育进化树分析表明,NDV长春株与La Sota株亲缘关系最近,为弱毒株。参考多株NDV HN基因序列设计了1对特异性引物,应用RT-PCR一次性扩增出NDV长春株的全长HN基因。将该HN基因插入pKS（-）后,进行了序列测定。序列分析表明,该HN基因苷酸长度为1731bp,编码577个氨基酸,序列中有5个糖基化位点,12个半胱氨酸残基,与国外发表的NDV毒株序列相符,核苷酸同源性为88.1%～98.8%,推导的氨基酸同源性为91.1%～98.8%。     

Immune response to oil-emulsion vaccines with single or mixed antigens of Newcastle disease, avian influenza, and infectious bronchitis

Inactivated Newcastle disease virus (NDV), avian influenza virus (AIV), and infectious bronchitis virus (IBV) antigens were evaluated for immunological efficacy in monovalent and polyvalent vaccines. Vaccinated broilers were bled for hemagglutination-inhibition (HI) tests at 1- or 2-week intervals. Half of the chickens were challenged with the Largo isolate of velogenic viscerotropic (VV) NDV at 8 weeks post-vaccination, and the remainder were challenged with the Massachusetts 41 strain IBV at 9 weeks post-vaccination. Newcastle disease HI titers were reduced significantly (P less than 0.05) from those of monovalent control vaccine groups when IBV antigen was emulsified in mixtures with low (1-3x) concentrated NDV or NDV and AIV antigens. Avian influenza HI titers were significantly (P less than 0.05) lower than those of the control monovalent groups when highly concentrated NDV was part of the polyvalent vaccine. Infectious bronchitis HI titers were higher than those of control monovalent groups in 13 of 15 vaccine groups when IBV antigen was in polyvalent formulations. VV NDV challenge killed all non-NDV vaccinates and induced increased HI titers in NDV vaccinates but no morbidity or mortality. Sixty of 80 IBV vaccinates experienced a fourfold or greater HI titer increase following challenge. All non-IBV vaccinates seroconverted at 1 week post-challenge.     

A rapid virus neutralization assay for Newcastle disease virus with the swine testicular continuous cell line.

Five continuous cell lines, swine testicular (ST), human rectal tumor (HRT 18), fetal rhesus monkey kidney (MA104), bovine turbinate (BT), and quail tracheal (QT35), were evaluated and compared with chicken embryo fibroblasts (CEFs) for their ability to propagate B1 or Texas GB strains of Newcastle disease virus (NDV). The NDV Texas GB strain replicated in all the continuous cell lines used in this study. Only the ST and QT35 cells produced a cytopathic effect (CPE) similar to that produced in CEFs. However, the ST cell line remained attached while displaying CPE, whereas infected QT35 cells detached, as did the CEFs. The B1 strain of NDV replicated in ST cells, MA104 cells, and CEFs but with less CPE as compared with the Texas GB strain. Pretreatment with trypsin did not enhance CPE with either NDV strain at the level tested. Sera evaluated for neutralizing antibody titers to NDV were significantly higher in titer when the ST cell line was used and compared with CEFs. A high correlation was found between the microscopic examination and the tetrazolium dye (MTT) microassay methods for determining the viral neutralization endpoint, thus suggesting the ST cell line and MTT microassay could be used as an alternative to CEFs and microscopic examination for evaluating neutralizing antibodies titers to NDV.     

新城疫病毒山东流行株F基因的序列测定和分析

用 SPF鸡胚从发生新城疫鸡群分离到一株病毒 ,进行了生物学特性的研究 ,结果表明 ,最小致死量鸡胚平均死亡时间 (MDT)为 5 0 ,1日龄鸡脑内接种致病指数 (ICPI)为 1.82 ,6周龄鸡静脉接种致病指数 (IVPI)为 2 .6 2 ,属强毒力毒株。以异硫氰酸胍法提取病毒基因组 RNA,RT- PCR扩增其融合蛋白 F基因重要功能区片段 ,经回收后 ,克隆到 p GEM- T载体上进行酶切鉴定与核苷酸序列测定 ,并与多株已报道的 NDV国内外参考株相应片段进行序列比较 ,F基因的同源性在 84% - 91%之间 ,氨基酸同源性为 82 % - 93% ,经基因进化树分析 ,证实流行株为基因 型毒株     

Genetic relationships among lentogenic strains of Newcastle disease virus

Purified RNA from five lentogenic Newcastle disease virus (NDV) strains (B1, England-F, Nebraska, Queensland V4, and Ulster) was subjected to oligonucleotide fingerprinting analysis. This technique could resolve over 100 oligonucleotides per virus strain, of which 50 to 80 were unique. Although the fingerprints generated from these viral RNAs exhibited similar distribution patterns of non-unique RNA fragments, all could be distinguished from one another on the basis of the migration of unique RNA fragments. It is concluded that oligonucleotide mapping is a useful method of unambiguously identifying individual lentogenic strains of NDV and that this technique may serve as a means of characterizing highly pathogenic NDV isolates.     

Nucleotide sequence and vaccinia expression of the nucleoprotein of a highly virulent, neurotropic strain of Newcastle disease virus

The nucleoprotein (NP) of Newcastle disease virus (NDV) was selected to study the relative importance of an internal structural protein in the avian immune response. The NP gene of the virulent, neurotropic NDV Texas GB (TGB) strain was cloned and sequenced. Nucleotide sequence data for the NP gene allowed comparison of the deduced amino acid sequences for the NP genes of NDV-TGB and the avirulent duck isolate NDV-D26. These comparisons demonstrated an 89% nucleotide sequence homology and a 97% homology between the deduced amino acid sequences. The NDV-TGB NP expressed in recombinant vaccinia virus (rVAC) was electrophoretically and immunologically identical to the wild-type NDV-TGB. Although inoculation of chickens with the recombinant vaccinia virus expressing the NDV NP gene elicited anti-NDV antibodies in higher titers than in birds inoculated with live LaSota NDV, this strong anti-NDV response did not protect against lethal challenge with NDV-TGB.     

新城疫病毒通用型实时RT-PCR检测方法的建立与应用

采用TaqMan方法,经引物和探针的设计、筛选及反应条件优化,研究了检测活禽和禽产品中新城疫病毒的通用型实时RT-PCR(RRT-PCR)方法。结果显示,对12株分别为速发型、中发型、缓发型和疫苗株新城疫病毒的尿囊液倍比稀释液的检测极限在10-5~10-7之间;建立的方法与常见禽类病毒无交叉反应,特异性良好;在检测人工感染肉鸡的脏器组织、咽喉、泄殖腔拭子中病毒的灵敏度同鸡胚分离试验基本一致;弱毒疫苗免疫鸡群在免疫后14 d,应用本方法不能从咽喉、泄殖腔拭子中检测到病毒;临床样品检测表明,该方法不仅可以检出中强毒力新城疫毒株,也可检出缓发型野毒株和疫苗毒株。     

Protection of chickens from Newcastle disease with a recombinant baculovirus subunit vaccine expressing the fusion and hemagglutinin-neuraminidase proteins

Recombinant baculoviruses containing the fusion (F) and hemagglutinin-neuraminidase (HN) glycoprotein gene of the viscerotropic velogenic (vv) Newcastle disease virus (NDV) isolate, Kr-005/00, and a lentogenic La Sota strain of the NDV were constructed in an attempt to develop an effective subunit vaccine to the recent epizootic vvNDV. The level of protection was determined by evaluating the clinical signs, mortality, and virus shedding from the oropharynx and cloaca of chickens after a challenge with vvNDV Kr-005/00. The recombinant ND F (rND F) and recombinant HN (rND HN) glycoproteins derived from the velogenic strain provided good protection against the clinical signs and mortality, showing a 0.00 PI value and 100% protection after a booster immunization. On the other hand, the combined rND F + HN glycoprotein derived from the velogenic strain induced complete protection (0.00 PI value and 100% protection) and significantly reduced the amount of virus shedding even after a single immunization. The rND F and rND HN glycoproteins derived from the velogenic strain had a slightly, but not significantly, greater protective effect than the lentogenic strain. These results suggest that the combined rND F + HN glycoprotein derived from vvNDV can be an ideal subunit marker vaccine candidate in chickens in a future ND eradication program.     

新城疫病毒F48E9株F基因主要功能区的核苷酸序列分析

本试验首先以ＮＤＶＦ４８Ｅ９株的基因组ＲＮＡ为模板,逆转录合成Ｆ基因ｃＤＮＡ第一链,再通过ＰＣＲ技术扩增Ｆ基因的ｃＤＮＡ,然后将其克隆到质粒ｐＵＣ１９中,经分子量比较、酶切分析、ＰＣＲ等方法证明,我们已经获得了ＮＤＶＦ４８Ｅ９株Ｆ基因的阳性克隆。经初步序列分析,ＦＡ段核苷酸序列与参考株（Ｄ２６／７６）序列同源性为８９％,ＦＢ段同源性为９１％。二者的氨基酸序列表明,Ｆ４８Ｅ９株Ｆ蛋白裂解位点与其它强毒株裂解位点氨基酸组成相同,即１１２ＲＲＱＲＲ１１６Ｆ１１７。这两段序列中包含的三个Ｃｙｓ残基和三个潜在的糖基化位点都相当保守。     

一株基因Ⅸ型鸭源新城疫病毒F基因的克隆及序列分析

从广东地区疑似患有新城疫的病死雏番鸭群中分离到1株新城疫病毒,命名为GD1002株。毒力测定结果表明,致死鸡胚平均死亡时间(MDT)、1日龄雏鸡脑内接种致病指数(ICPI)、6周龄鸡静脉接种致病指数(IVPI)分别为56.0 h、1.64、2.29,符合强毒株的毒力判断标准。利用RT-PCR扩增了该分离株F基因的主要功能区片段,并进行了克隆与序列分析。该分离株F蛋白裂解位点的组成为¹¹²R-R-Q-R-R-F¹¹⁷,具有典型新城疫强毒株的分子特征。F基因第47-420 nt片段基因分型分析表明,该流行株属于基因Ⅸ型。相似性及遗传进化分析结果表明,该分离株与基因Ⅸ型毒株F₄₈E₉、JS/1/97/Ch和FJ/1/85/Ch株有较高同源性和较近的亲缘关系。     

Cellular and humoral response of in ovo-bursectomized chickens to experimental challenge with velogenic Newcastle disease virus

Humorally deficient, in ovo-bursectomized (Bx) and sham-Bx chickens were vaccinated twice, 1 month apart, with Newcastle disease virus (NDV) Roakin strain and challenged with a velogenic viscerotropic NDV strain via the oronasal route. Hemagglutination-inhibition and seroneutralization tests showed that Bx chickens had reduced antibody-mediated immunity to virus infection. In contrast, they had significantly higher cell-mediated immunity (CMI) before challenge, as estimated simultaneously by determination of blastogenic capacity of peripheral blood lymphocytes induced by phytohemagglutinin and by specific antigen stimulation. After virus challenge, there was transitory inhibition of CMI based on marked reductions in levels of stimulation indices, and this impairment in CMI was supported by persistence of virus in Bx chickens for longer periods. Bx chickens resisted challenge, even though antibody titers were well below those considered predictive of resistance to challenge, suggesting that CMI provides a degree of resistance to velogenic NDV.