ISOLATION AND CHARACTERISATION OF HERPES VIRUS FROM TURKEYS

Turkey herpesvirus (HVT) was isolated from the kidneys of 6 of 8 turkey poults from two flocks. The isolates were identified by syncytial-type of cytopathology, inhibition of plaque formation by 5-bromodeoxyuridine, formation of Cowdry type A intranuclear inclusions in cell cultures, and presence of herpes-type virions in negatively stained preparations and thin sections of infected cell cultures. One of these isolates inoculated into chickens proved apathogenic over an observation period of 10 weeks. Indirect immunofluorescence and serum neutralisation tests revealed serological relationship between these isolates and the strain NSW 1/70 of HVT. Staining of HVT-infected cell culture by Marek's disease herpesvirus (MDHV) antiserum showed intranuclear fluorescence but attempts to prepare HVT precipitating antigen or to demonstrate cross-precipiation between HVT and MDHV were unsuccessful.     

Natural killer cell activity in chickens exposed to Marek's disease virus: inhibition of activity in susceptible chickens and enhancement of activity in resistant and vaccinated chickens

Chickens of 2 genetic lines (lines P and N) were inoculated with a pathogenic strain of Marek's disease (MD) virus (MDV) and chronologically examined for disease response and natural killer (NK) cell expression. The NK cell reactivity was assayed in an in vitro cytotoxicity assay in which effector cells from the spleen of test chickens were reacted with 51Cr-labeled LSCC-RP9 target cells. Chickens of line P developed progressive debilitating disease and a high incidence of gross tumors and death. The NK cell reactivity of line-P chickens infected with MDV was significantly lower than that of uninfected control hatchmates. In contrast, NK cell levels were significantly elevated in MDV-inoculated line-N chickens that were resistant to MD and in chickens of lines P or N that had been inoculated with herpesvirus of turkeys (HVT). NK cell levels were also elevated in line P if chickens were vaccinated with HVT before infection with MDV. Inhibition of NK reactivity in susceptible chickens and elevation of reactivity in naturally resistant or vaccinated chickens may indicate a role for the NK cell system in regulating resistance to MD.     

Cell-mediated immunity in Marek's disease: cytotoxic responses in resistant and susceptible chickens and relation to disease

Two experiments were conducted to study the cell-mediated cytotoxicity of peripheral blood leukocytes (PBL) from chickens inoculated with Marek's disease virus (MDV) against a Marek's disease-derived lymphoblastoid cell line (MSB-1) and to associate the cytotoxicity with incidence of disease. In experiment I, moderately susceptible random-bred, specific-pathogen-free chickens were inoculated with MDV (group 1), vaccinated with a herpesvirus of turkeys (HVT) and inoculated with MDV (group 2), vaccinated with HVT and inoculated with chicken kidney cells (CKC; group 3), and inoculated with CKC only (group 4). Cytotoxic activity in the PBL was detected initially during the first week after MDV inoculation and periodically throughout the observation period (groups 1, 2, and 3). Throughout the observation period, the magnitude of cytotoxic activity was similar in PBL from groups 1 and 2 chickens. The PBL from both surviving and fatally infected chickens (groups 1 and 2) were similarly cytotoxic when sampled during the first 16 days after MDV inoculation. In experiment II, inbred genetically susceptible (line 7) and resistant (line 6) chickens were used. Cytotoxic activity of PBL of significantly greater magnitude was associated with a lower mortality or incidence of gross lesions (or both) in MDV-inoculated line 6 (group B) and HVT-vaccinated and MDV-inoculated line 7 (group C) chickens compared with activity of PBL from MDV-inoculated line 7 (group A) chickens. The cytotoxic activity of PBL from individual inbred chickens did not correlate with the outcome of the infection.     

Establishment and characterization of a thymidine kinase deficient avian fibroblast cell line derived from a Japanese quail cell line, QT35.

An avian thymidine kinase deficient (TK-) fibroblast cell line (QTTK-) was established from a Japanese quail cell line, QT35, and characterized the biological properties. QTTK- could grow in the presence of 5-bromo-2'-deoxyuridine (BUdR, 100 micrograms/ml) and not in the growth medium with hypoxanthine-aminopterin-thymidine. Compared to QT35 cells, the 3H-thymidine incorporation of the QTTK- cells and the TK activity of the cell extract significantly decreased to 0.3% and 0.5%, respectively. In the thymidylate synthetase activity, the karyotype, and the sensitivities to either fowlpox virus (FPV) or herpesvirus of turkeys (HVT), OTTK- cells were similar to the parental QT35 cells. Since QTTK- cells were permissive to FPV and HVT infections and these viruses could not grow in the presence of 50 to 75 micrograms/ml of BUdR, QTTK- cells may be useful for the construction of recombinant FPV and HVT that have foreign genes within the TK gene of the virus genome.     

Influence of vaccination with avirulent herpesvirus on subsequent infection of chickens with virulent Marek's disease herpesvirus.

Vaccination of chickens with turkey herpesvirus (HVT) or attenuated Marek's disease herpesvirus (aMDHV) blocked infection with virulent MDHV (VMDHV) for approximately 5 weeks after contact exposure. However, there was no apparent blockage of infection when challenge virus was administered intraabdominally (IA). Evidence for infection with VMDHV was based on viral isolation by in vivo assay or by detecting precipitins to "A" antigen associated with virulent virus. The HVT stimulated production of neutralizing antibody against VMDHV in a high percentage of chickens, whereas the aMDHV was a comparatively poor inducer of such antibody. Despite this difference, both of the vaccinal viruses conferred protection against development of Marek's disease.     

HVT国内株的分离鉴定

用来自国内某火鸡饲养场的健康火鸡血白细胞 ,接种于鸡胚成纤维细胞 ,分离到一株火鸡疱疹病毒的野毒—SY8_2。电镜下可观察到分离株SY8_2的鸡胚成纤维细胞培养物中存在典型的火鸡疱疹病毒粒子 ;分离株SY8_2的细胞培养物经卵黄囊途径接种 4日龄鸡胚 ,14天后在绒毛尿囊膜上形成痘斑 ;用分离物SY8_2细胞培养物接种 1日龄SPF雏鸡 ,感染雏鸡可产生病毒血症 ,并能从感染雏鸡的血液白细胞中重新分离到病毒 ;经 2个月的临床观察人工感染鸡无不良反应 ,剖检无任何病理解剖学变化 ;用HVT特异性单克隆抗体L78(3型 )做间接免疫荧光染色试验证实分离株SY8_2为MD血清 3型病毒—HVT。     

In situ production of interferon in tissues of chickens exposed as embryos to turkey herpesvirus and Marek's disease virus

Chicken eggs at embryonation day (ED) 18 or newly hatched chicks were inoculated with turkey herpesvirus (HVT), Marek's disease virus (MDV), or virus-free diluent and, at intervals after inoculation, tissue homogenates of virus-exposed and virus-free chickens or chicken embryos were examined for interferon (IFN) activity. Homogenates of lung, thymus and spleen specimens from chickens given HVT at ED 18 had IFN activity. Activity of IFN in the lungs was studied further. Homogenates of lung specimens from chickens exposed to HVT at hatching also had IFN activity, although the concentration of IFN was lower than that in chickens given HVT at ED 18. The pathogenic isolates of MDV (JM-MDV), but not the attenuated (Md11/75C-MDV) or nonpathogenic (SB1-MDV) isolates, inoculated at ED 18 also induced high lung IFN activity. Exposure to a combination of HVT and SB1-MDV induced IFN activity comparable with that in chickens given HVT alone. The IFN activity in homogenates of lung specimens from virus-exposed chickens was species specific and heat and pH stable, but was destroyed by trypsin treatment. Occasionally, low IFN activity also was detected in homogenates of tissue specimens from virus-free chickens or chicken embryos. This IFN activity could have been produced constitutively or may have been induced by substances (inducers) in the environment.     

Antibody response of chickens to serotype 1, 2, or 3 Marek's disease vaccines based on ELISA with infected cells as antigen

An enzyme-linked immunosorbent assay (ELISA) was applied to evaluate the antibody response of commercial White Leghorn chickens to vaccination against Marek's disease (MD) at hatch (day 0) with serotype-1 (Rispens), -2 (SB-1), or -3 (turkey herpesvirus, HVT) vaccine virus and to challenge on day 21 with MD virus. Antigens for the test were whole chicken embryo fibroblast cells infected with Rispens, SB-1, or HVT. The chickens were progeny of stock that had been vaccinated with HVT, and on day 21 the nonvaccinated group had higher levels of maternal antibodies to HVT than to other antigens (P < 0.05). Only SB-1 vaccine had induced antibodies by day 21, and this was detected only against homologous antigens. On day 49, all three vaccines had induced higher levels of antibodies to homologous than to heterologous antigens. Marek's Disease virus (MDV) induced antibodies to all three antigens, but challenging vaccinated chicks did not significantly increase levels of antibodies on day 81 to any of the three antigens. It was concluded that an ELISA using whole cells as antigens would have potential value for monitoring the antibody response induced by MD vaccines and virulent MDV.     

Effects of infectious bursal disease on Marek's disease vaccination: suppression of antiviral immune response

Studies were made to determine whether infectious bursal disease virus (IBDV) infection would affect the response of chickens to turkey herpesvirus (HVT) vaccination in the development and level of HVT viremia and virus-neutralizing (VN) antibodies to HVT. The HVT viremia in the vaccinated chickens was not affected by IBDV, whether IBDV was inoculated simultaneously with HVT vaccination at one day of age or whether it was inoculated 3 weeks postvaccination with HVT. However, VN antibody response to HVT was significantly suppressed (P less than 0.001) when vaccinated chickens were exposed to IBDV either at the time of vaccination or at 3 weeks postvaccination. Such immunosuppression by IBDV of VN antibody response to HVT vaccination may result in a reduced antiviral immunity against Marek's disease virus.     

Influence of turkey herpesvirus vaccination on the B-haplotype effect on Marek's disease resistance in 15.B-congenic chickens.

Eight recently developed 15.B congenic lines of chickens were tested for Marek's disease (MD) resistance by intra-abdominal injection of cell-associated preparations of MD virus of a virulent strain (JM), a very virulent strain (Md5), or Md5 after vaccination with turkey herpesvirus (HVT) strain FC126. Chickens of the 15.N congenic line (B15B21 or B21B21) were very resistant to JM-induced MD, in contrast to chickens homozygous for the B-haplotypes 2, 5, 12, 13, 15, or 19. After Md5 infection, more than 88% of the chickens in all of the congenic lines developed MD. However, when chickens were vaccinated with HVT before being inoculated with Md5, the B5 and B12 homozygotes were more resistant to MD than were the B2, B13, or B19 homozygotes, and B15 and B21 homozygotes had intermediate resistance. B5B5 and B2B5 F2 chicks inoculated with HVT and Md5 had a lower prevalence of MD than B2B2 sibs. These results demonstrate that a protocol involving HVT vaccination of chicks followed by infection with very virulent MD virus will allow the detection of B-haplotypes determining MD resistance, some of which are not detectable in unvaccinated chicks challenged with virulent MD.     

Field trials to test the efficacy of polyvalent Marek's disease vaccines in broilers

The efficacies of trivalent (Md11/75C + SB-1 + HVT), bivalent (SB-1 + HVT), and turkey herpesvirus (HVT) vaccines against Marek's disease (MD) were compared in commercial broiler flocks in four trials involving 11 farm locations and 486,300 chickens. In all four trials, chickens receiving polyvalent vaccines had lower leukosis (MD) condemnation rates than chickens vaccinated with HVT alone; when data were summarized for each vaccine type in each trial, condemnation rates for the bivalent- or trivalent-vaccinated groups were 56-96% (mean 78%) lower than those for HVT-vaccinated chickens. Polyvalent vaccination was clearly mor efficacious than HVT in 8 of 11 individual farms, although it did not always reduce leukosis condemnations to acceptable levels. Body weights of chickens vaccinated with polyvalent vaccines did not differ consistently from those vaccinated with HVT. Chickens inoculated with the trivalent vaccine had slightly lower overall leukosis condemnation rates (0.24%) than those inoculated with the bivalent vaccine (0.45%) in trials 1-3, where direct comparisons were made. Bivalent vaccines containing either 1,500 or 200 plaque-forming units of SB-1 virus were equally effective; thus, HVT may need to be supplemented with only small amounts of SB-1 to obtain the benefits of protective synergism. SB-1 virus did not appear to carry over from polyvalent-vaccinated flocks to subsequent HVT-vaccinated flocks in the same houses, even when old litter was used.     

表达马立克氏病病毒CVI988／Rispens株糖蛋白B基因的重组鸡痘病毒疫苗的免疫保护研究

用鸡痘病毒载体表达马立克氏病病毒（MDV）糖蛋白B（gB）基因构建成重组鸡痘病毒（rFPV）。以MDV　GA或Md5和RBIB混合攻毒，在不同品种的鸡中评价rFPV－gB／R单价苗和与火鸡疱疹病毒（HVT）组成的二价苗的免疫保护效力。试验结果表明，MDV疫苗和FPV母源抗体阴性的SPF鸡和母源抗体阳性的商品鸡中，rFDV－gB／R均能提供免疫保护作用，且其中一种商品蛋鸡中rFPV－gB／R与HVT液氮苗或HVT冻干苗结合使用，均有显著的免疫协同保护作用。免疫学研究指出，rFPV－gB／R与常规疫苗一样，可显著地降低疫苗免疫攻毒鸡的病毒血症和羽囊排毒。     

Pathogenicity studies with plaque-purified preparations of Marek's disease virus strain CVI-988

The pathogenicity of Marek's disease (MD) strain CVI-988 vaccine, eight plaque-purified preparations originating from this strain, and the vaccine HVT FC126 (based on herpesvirus of turkeys) was determined by intramuscular administration of high virus doses to day-old specific-pathogen-free Rhode Island Red (RIR) chickens, which are extremely MD-susceptible. Paralysis and neuritis were observed in 88% of RIR chickens inoculated with MDV CVI-988 at the cell-passage level of the commercial vaccine. HVT FC126 caused paralysis in two of 39 RIR chickens tested, of which one had an endoneural lymphoma, and another three had endoneural inflammation. Five plaque-purified MDV CVI-988 virus preparations at various cell-culture-passage levels caused no lesions. Of another three clones, two caused inflammatory B-type lesions in the nerves of 1/10 chickens, and the third clone caused inflammatory nonneoplastic MD lesions in the liver of 1/11 chickens.     

Adaptation of Marek's disease virus to the Vero continuous cell line

Marek's disease virus (MDV) is a highly infectious, cell-associated oncogenic herpesvirus. Production of MD vaccines has been limited to primary chicken and duck embryo fibroblast (CEF and DEF) cultures. These have a limited life span and cannot be readily stored in liquid nitrogen. Moreover, the need to prepare CEF and DEF cells on a regular basis from 10 to 11 day-old embryos derived from a flock that must be tested continuously for the presence of avian pathogens adds to the cost of vaccine production. A continuous cell line that would support MDV replication could have significant advantages for the rapid large-scale preparation of MD vaccines. In this report, we describe the adaptation to growth of CEF-grown preparations of serotype 1 and serotype 3 (herpesvirus of turkeys; HVT) strains of MDV in cells of the Vero continuous cell line. Although both viruses produced typical CPE, higher levels of infectious progeny and more extensive virus-specific immunofluorescence were obtained for HVT than for the serotype 1 virus. PCR and pulsed field electrophoresis (PFE) analysis of the DNA from Vero cells infected with either virus confirmed the presence of virus-specific DNA.     

不同MD免疫抗性鸡羽髓中疫苗毒与超强毒的复制动力学及相关性研究

为研究具有不同抗性的马立克氏病(MD)疫苗免疫鸡羽髓后,疫苗毒和超强毒(vvMDV)的复制动力学及两种病毒载量的相关性,本实验对经火鸡疱疹病毒(HVT)FC126疫苗株免疫1周后(1wpv),攻击vvMDV Md5株G3系和G7系鸡羽髓中的HVT和vvMDV载量进行定量检测及相关性分析。结果显示,G3系和G7系鸡群羽髓中的vvMDV载量始终高于疫苗毒。其中,G3系鸡群在免疫和攻毒后的相同时间内,疫苗毒与vvMDV载量的消长规律基本一致,均在感染后第4周(4wpi)出现峰值,6wpi降至最低水平,两种病毒载量多表现为正相关,6wpv～8wpv为持续显著正相关;G7系的两种病毒的复制动力学存在差异:vvMDV载量从攻毒后第6周呈增长趋势,而疫苗毒在4wpv出现峰值后迅速下降,两种病毒载量多表现为负相关。本研究表明,免疫遗传基因在对病毒的抵抗中起主要作用,为MDV的感染机制和疫苗免疫机理的研究提供实验依据。     

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.     

Comparative viral, immunologic, and pathologic responses of chickens inoculated with herpesvirus of turkeys as embryos or at hatch

Chickens were vaccinated with the herpesvirus of turkeys (HVT) at embryonation day 17 or 18 or at hatch and various responses of the 2 vaccinated groups were compared. In embryo-vaccinated chickens, HVT titers were high in the lungs before HVT could be isolated from other tissues. Seemingly, embryos acquired infection via the respiratory tract. In hatch-vaccinated chickens, HVT was first isolated from spleen and then from other tissues. Titers of recoverable HVT in tissues of embryo-vaccinated chickens were higher than in those of hatch-vaccinated chickens, particularly during the 1st week of age. Anti-HVT antibodies and natural killer cell reactivity in spleen effector cells were comparably increased in both vaccinated groups. Embryo vaccination with HVT did not cause progressive lesions, reduction in body weight gain, or impairment of humoral and cellular immune functions. Seemingly, HVT can be used safely as an embryonal vaccine in chickens.     

Partial protection against Marek's disease in chickens immunized with glycoproteins gB purified from turkey-herpesvirus-infected cells by affinity chromatography coupled with monoclonal antibodies

Glycoproteins gB of Marek's disease virus (MDV) and herpesvirus of turkeys (HVT) related to virus neutralization were purified from HVT-infected cells by affinity chromatography. Immunization of chickens with purified glycoproteins gB resulted in partial protection against MD. Neutralizing antibodies were detected in chickens immunized with HVT-gB.     

Field trials with a bivalent vaccine (HVT and SB-1) against Marek's disease

White leghorn chickens on five farms were given a bivalent Marek's disease (MD) vaccine consisting of turkey herpesvirus (HVT) and SB-1 (a nononcogenic MD virus); other chickens received only HVT. The farms had histories of "vaccination failures," presumably owing to an exceptionally virulent challenge MD virus. The bivalent vaccine uniformly protected chickens better than HVT alone between 12 and 16-20 weeks of age, when serious MD losses occurred. During that period, total mortality in groups given both viruses ranged from 0.39 to 1.26% (mean 0.86%), whereas that in HVT-vaccinated groups not exposed to SB-1 varied from 1.92 to 7.44% (mean 3.43%). Chickens in pens or rows with close contact to those given bivalent vaccine also had low MD mortality rates (0.46-1.06%, mean 0.77%), probably from the spread of SB-1.