Use of a Japanese quail fibrosarcoma cell line (QT-35) in serologic assays to determine the antigenic relationship of avian metapneumoviruses.

The ability of a Japanese quail fibrosarcoma cell line (QT-35) to support the replication of avian metapneumoviruses belonging to the 3 subgroups A (14/1 virus), B (Colorado virus), and C (Hungary virus) enabled the development of assays for the detection and evaluation of virus-specific antibodies. On the basis of the results of enzyme-linked immunosorbent assay (ELISA), plaque reduction neutralization assay (PRNA), immunofluorescent assay (IFA), and Western blot analysis, some degree of antigenic cross-reactivity was observed between prototype viruses belonging to each of the 3 subgroups A, B, and C. The antigen produced in QT-35 cells was found to be superior with respect to its reactivity with virus-specific antibodies, as determined when used in ELISA and IFA. Standardization of both the input virus and the virus-specific antibodies in PRNA enabled a more detailed analysis of the antigenic relationship between these viruses. Specifically, it was observed that 14/1 virus shared more neutralizing regions with Hungary and Colorado viruses than did either of these viruses with 14/1 virus. In addition, Hungary virus shared comparatively fewer neutralizing epitopes with the Colorado virus than did 14/1 virus. Western blot analysis of the reactivity patterns of virus antigen, produced in QT-35 cells, with subgroup-specific antibodies identified a cross-reactive protein migrating at approximately 18 kD. These assays and the information from the Western blot will enable further analysis of avian metapneumovirus isolates to determine antigenic relationships.     

Susceptibility of day-old chicks and ducklings,goslings and quaiis to pigeon herpes encephalomyelitis and pigeon herpesviruses

Day-old chicks were susceptible to pigeon herpes encephalomyelitis virus (PHEV) by intracerebral (i/c) inoculation. Infected birds developed neurologic signs starting from 2 to 15 days post-infection, and 85% died. The virus was recovered from the brains of diseased chicks in titers ranging between 104 and 105.5 EID₅₀/0.2 ml. Inoculated birds shed the virus in their droppings throughout the 2 weeks observation period. Day-old chicks given the virus by the intranasal (i/n) or oral routes did not develop any specific signs but shed the virus also in their droppings throughout the observation period. Ducklings and goslings inoculated intravenously (i/v), i/n or orally were resistant. Day-old chicks and ducklings, goslings and quails inoculated by different routes with pigeon herpesvirus (PHV) did not show respiratory or nervous signs.     

Effect of genotypic and biotypic differences among PRRS viruses on the serologic assessment of pigs for virus infection

Genetic, antigenic, and pathogenic variability is known to exist among porcine reproductive and respiratory syndrome (PRRS) viruses and has garnered great attention for diagnostics and disease control/prevention. A comparative serologic study was conducted on five field and two cell-attenuated viruses to determine if serologic responses to PRRS virus infection could be influenced by biotypic and/or genotypic differences of the viruses. The isolates used for the study varied in their virulence to pigs and in genomic sequences. Ten pigs were inoculated with each isolate (1x10(3) TCID(50)) via the intranasal route. All inoculated animals became viremic during the study period. Some animals inoculated with the attenuated viruses remained seronegative until the end of the study (42 days post-inoculation (PI)), but all of the animals inoculated with field viruses developed enzyme-linked immunosorbent assay (ELISA)- and indirect fluorescent antibody (IFA)-detectable antibodies, regardless of the virus strain used in the IFA assay. In contrast, a great degree of variation in the onset and level of serum-virus neutralization (SVN) antibody was observed by individual pigs and by each virus. The reactivity of SVN antibody was highly specific for homologous viruses. Cross-neutralization titers were better correlated with sequence homology of open-reading frames (ORFs) 4 and 5 among the viruses than any other structural genes. We conclude that the biotypic difference among PRRS viruses may affect the kinetic of humoral immune response in infected pigs. The IFA test may be used as a confirmatory test when a false-positive ELISA result is suspected or vise-a-versa, but SVN antibody titers are highly affected by antigenic variability.     

First Report on Molecular Detection of Equine Upper Respiratory Infectious Viruses in Republic of Korea

The prevalence of equine respiratory virus infections among a suspected population of race horses was examined using polymerase chain reaction (PCR). One or more of five equine respiratory viruses were detected in the nasal swabs of 45 of 89 horses (50.6%), and the detection rate of equine herpesvirus type 1 (EHV-1), equine herpesvirus type 4 (EHV-4), equine herpesvirus type 5 (EHV-5), equine rhinitis A virus (ERAV) and equine rhinitis B virus (ERBV) were 5.6%, 7.9%, 39.0%, 2.2%, and 6.7%, respectively. Among the 45 infected horses, 7 were co-infected with EHV and/or equine rhinitisvirus (ERV). Equine influenzavirus and equine arteritisvirus were not detected in any samples. Specific antibodies to EHV-1 and/or EHV-4 were detected in 59 of 73 tested sera (80.8%), using a virus neutralization test. This investigation suggests that equine respiratory viruses are endemic at Seoul Race Park and that the impact of viral infections on race horses’ health in Republic of Korea should be evaluated.     

A Comparison of the Viruses of Infectious Bovine Rhinotracheitis (IBR), Infectious Pustular Vulvovaginitis (IPV), and Rinderpest: Part I. Studies of Antigenic Relationships

The viruses of infectious bovine rhinotracheitis (IBR), infectious pustular vulvovaginitis (IPV), and rinderpest were compared by specific methods. The results further confirmed that IBR and IPV are caused by agents with common antigens. No antigenic relationship was found between these viruses and rinderpest virus, which confirms earlier work.     

Identification of the cross-reactive antigens between Marek's disease virus and pseudorabies virus by monoclonal antibodies

Among the 33 monoclonal antibodies (MAbs) against pseudorabies virus (PRV) examined, three MAbs (24-17, 74-26, and 8) were found to react with cells infected with Marek's disease virus (MDV)-related viruses by immunofluorescence test. Two of the MAbs (24-17 and 74-26) reacted with the nuclei of cells infected with MDV serotype 1 (MDV1), MDV serotype 2 (MDV2), and herpesvirus of turkeys (HVT), whereas MAb 8 reacted with the cytoplasm of MDV2- and HVT-infected cells. However, none of the MAbs against MDV1, MDV2, and HVT that were examined reacted with PRV-infected cells. None of these three MAbs against PRV reactive with MDV-related viruses cross-reacted with the cells infected with other herpesviruses, such as herpes simplex virus type 1, herpes simplex virus type 2, varicella zoster virus, Epstein-Barr virus, or human herpesvirus 6. Southern-blot hybridization under stringent or less-stringent conditions showed that no significant DNA homology was detected between PRV DNA and MDV DNA.     

Malignant catarrhal fever: polymerase chain reaction survey for ovine herpesvirus 2 and other persistent herpesvirus and retrovirus infections of dairy cattle and bison.

Using a polymerase chain reaction (PCR) test for sequences of ovine herpesvirus 2 (OHV2), this virus was shown to be significantly associated with sheep-associated malignant catarrhal fever (SA-MCF) in terminal cases of disease in 34 cattle and 53 bison. Ovine herpesvirus 2 was not detected in cattle (38) and bison (10) that succumbed to other diseases. Other persistent herpesviruses, retroviruses, and pestivirus, some of which have been previously isolated from cases of SA-MCF, were not associated with the disease. These included bovine herpesvirus 4 (BHV4), bovine lymphotrophic herpesvirus (BLHV), bovine syncytial virus (BSV, also known as bovine spumavirus), bovine immunodeficiency virus (BIV), and bovine viral diarrhea virus (BVDV). A PCR survey for OHV2 in DNA from individual cow's peripheral blood lymphocytes in 4 dairies showed that the 1 dairy that was in close contact to sheep had a prevalence of OHV2 of 21.3%, whereas the 3 other dairies had no OHV2. Prevalence of the other herpesviruses and retroviruses in the dairy cows was variable, ranging from 2% to 51% for BHV4, 52% to 78.7% for BLHV, and 10% to 34% for BSV. Bovine lymphotrophic herpesvirus and BSV were also found in a few (1-4 of 21 tested) cases of terminal SA-MCF, but BIV and BVDV were not found in either the dairy cows sampled, or in the cases of SA-MCE No significant correlation was found between the presence of any 2 viruses (OHV2, BHV4, BLHV, BSV) in the dairy cows or terminal cases of SA-MCE     

Serological comparisons of antigenically related herpesviruses in cattle,red deer and goats

Serological comparisons were made using related herpesviruses from cattle (bovid herpesvirus 1), red deer (herpesvirus of cervidae 1) and goats (bovid herpesvirus 6) by virus neutralization and enzyme-linked immunosorbent assays. The test samples comprised field sera from British cattle, red deer and goats and sera from experimentally infected or immunized animals. Both the cervine and caprine viruses appeared to be more closely related to bovid herpesvirus 1 than they were to each other. Cattle sera reacted most strongly with the bovine virus and deer sera with the cervine virus. Antibodies to the caprine virus were not detected in the samples from British goats.     

Viral infections and bovine mastitis: a review

This review deals with the role of viruses in the aetiology of bovine mastitis. Bovine herpesvirus 1, bovine herpesvirus 4, foot-and-mouth disease virus, and parainfluenza 3 virus have been isolated from milk from cows with clinical mastitis. Intramammary inoculations of bovine herpesvirus 1 or parainfluenza 3 virus-induced clinical mastitis, while an intramammary inoculation of foot-and-mouth disease virus resulted in necrosis of the mammary gland. Subclinical mastitis has been induced after a simultaneous intramammary and intranasal inoculation of lactating cows with bovine herpesvirus 4. Bovine leukaemia virus has been detected in mammary tissue of cows with subclinical mastitis, but whether this virus was able to induce bovine mastitis has not been reported. Bovine herpesvirus 2, vaccinia, cowpox, pseudocowpox, vesicular stomatitis, foot-and-mouth disease viruses, and bovine papillomaviruses can play an indirect role in the aetiology of bovine mastitis. These viruses can induce teat lesions, for instance in the ductus papillaris, which result in a reduction of the natural defence mechanisms of the udder and indirectly in bovine mastitis due to bacterial pathogens. Bovine herpesvirus 1, bovine viral diarrhoea virus, bovine immunodeficiency virus, and bovine leukaemia virus infections may play an indirect role in bovine mastitis, due to their immunosuppressive properties. But, more research is warranted to underline their indirect role in bovine mastitis. We conclude that viral infections can play a direct or indirect role in the aetiology of bovine mastitis; therefore, their importance in the aetiology of bovine mastitis and their economical impact needs further attention.     

Antigenic analysis of feline coronaviruses with monoclonal antibodies (MAbs): preparation of MAbs which discriminate between FIPV strain 79-1146 and FECV strain 79-1683.

We prepared 31 monoclonal antibodies (MAbs) against either FIPV strain 79-1146 or FECV strain 79-1683, and tested them for reactivity with various coronaviruses by indirect fluorescent antibody assay (IFA). Sixteen MAbs which reacted with all of the 11 strains of feline coronaviruses, also reacted with canine coronavirus (CCV) and transmissible gastroenteritis virus (TGEV). In many of them, the polypeptide specificity was the recognition of transmembrane (E1) protein of the virus. We succeeded in obtaining MAbs which did not react with eight strains of FIPV Type I viruses (showing cell-associated growth) but reacted with FIPV Type II (79-1146, KU-1) and/or FECV Type II (79-1683) (showing non-cell associated growth). These MAbs also reacted with CCV or TGEV. These MAbs recognized peplomer (E2) glycoprotein, and many antigenic differences were found in this E2 protein. These results suggest that FIPV Type II and FECV Type II viruses are antigenically closer to TGEV or CCV than to FIPV Type I viruses. Furthermore, the MAb prepared in this study has enabled discrimination between FIPV strain 79-1146 and FECV strain 79-1683, which was thought to be impossible by the previous serological method.     

Propagation and quantitation of animal herpesviruses in eight cell culture systems

A comparative study was carried out to determine the relative sensitivities of eight different cell culture systems to six different herpesviruses of animals. The cells used were: OFL (ovine fetal lung), ML (mink lung), FK (ferret kidney), PTK-2 (potoroo kidney), TEK (turkey embryo kidney), ED (equine dermal), BT (bovine turbinate), and PK15 (porcine kidney). The viruses tested were: PRV (pseudorabies) of swine, CPHV (caprine herpesvirus), IBRV (infectious bovine rhinotracheitis virus), DN-599 strain of bovine herpesvirus type 4, EHV-1 (equine herpesvirus), and CHV (canine herpesvirus). On the basis of virus titers obtained and the time of appearance of CPE (cytopathic effects), ML cells were found to be the most useful because of their sensitivity to all six viruses tested. BT and OFL cells were also found to be highly sensitive to all viruses with the exception of CHV.     

Pathogenicity of a caprine herpesvirus.

A herpesvirus isolated from neonatal Angora kids (Capra hircus) with a relatively severe generalized infection was shown to be infective for adult goats as well as for kids. However, the virus lacked pathogenicity for either lambs or calves. Although a nonreciprocating serologic overlap exists between the caprine virus and the antibody to bovine herpesvirus (BHV-1), results of cross immunity tests in calves indicated that the 2 viruses are immunologically distinct. On the basis of these findings, the caprine virus seems to be a specific pathogen of goats. Accordingly, the designation of Herpesvirus caprae or caprine herpesvirus 1 seems taxonomically appropriate.     

Antigenic Relationships of Equine Herpesvirus Strains Demonstrated by the Plaque Reduction and Neutralization Kinetics Test

The antigenic relationships among 50 strains of equine herpesvirus (EHV) were studied by neutralization tests using antisera prepared in rabbits against four EHV reference strains: types 2 and 3, cytomegalo-like virus 82-A, and our leukocyte isolant H-40. No distinctive antigenic differences among reference strains were demonstrated in reciprocal neutralization tests but each antiserum neutralized its homologous virus more rapidly than any heterologous strain. Forty-six EHV strains isolated from peripheral blood leukocytes of apparently healthy horses were antigenically indistinguishable from each other and from the four reference strains. Their high degree of antigenic relatedness suggests that these viruses are isolants of a single, widely distributed serotype of which type 2 (LK) strain is a typical representative.     

A survey of non-specific cross-protective immunities induced by avian retroviruses

Reticuloendotheliosis virus strain T (REV-T) induced immunity in chicks to challenge by representative subgroup members of the avian leukosis-sarcoma virus (ALSV) complex. Immunity levels were compared to determine the extent of antigenic relation between REV-T and the ALSV complex. Reciprocal studies using ALSV subgroup members and pheasant viruses as immunogens and REV-T as challenge were also performed. It was concluded that reciprocity of immunity is not equal between the viruses studied, nor is immunity directly related to the virus-neutralizing-antibody levels induced by immunization with the viruses studied. In some cases, the levels of cross-protection demonstrated may be a sign of the induction of antibodies to common or similar tumor-specific surface antigens rather than complete antigenic identity between REV-T and the ALSV members used; in others, virus-neutralizing antibodies may be a sign of partial identity between some proteins of REV-T and ALSV subgroup members.     

鸡痘病毒活疫苗污染禽网状内皮组织 增生症病毒的间接免疫荧光法检测研究

通过向无外源病毒污染的鸡痘病毒活疫苗中添加不同剂量的禽网状内皮组织增生症病毒(REV),然后用间接免疫荧光法(IFA)进行检测,确定了该IFA方法的最低检出量为每500羽份疫苗中污染20 TCID_(50)的REV。使用该方法对国内16家企业生产的60批鸡痘病毒活疫苗进行了检验,结果显示2个企业生产的4批疫苗REV检测为阳性。随机选取5批IFA检测阴性样品和4批IFA检测阳性样品,按鸡检查法进行外源病毒检验,结果两种方法对REV污染的检测结果的符合率为100%。     

Seroprevalence of bovine respiratory viruses in North-Western Turkey

Bovine respiratory disease complex is a very important health problem around the world. Present study describes serological distribution of bovine major respiratory viruses in non -vaccinated cattle population of Marmara region in north-western Turkey. Neutralising antibodies specific to bovine viral diarrhoea virus (BVDV), bovine herpesvirus 1 (BHV-1), bovine respiratory syncytial virus (BRSV), bovine parainfluenza virus 3 (PI-3), bovine adenovirus serotype 1 (BAV-1) and serotype 3 (BAV-3) were investigated. Among 584 serum samples collected from 39 establishments in 7 provinces, 41.4% were positive for BVDV, 17.1% for BHV-1, 73.0% for BRSV, 43.0% for PI-3, 89.5% for BAV-1 and 92.3% for BAV-3. There were significant differences observed between seroprevalence rates detected in neighbouring provinces. Serological prevalence of BVDV, BHV-1 and BRSV were extremely higher in large capacity dairy farms than of small capacity farms (p < 0.0001). This study demonstrates that herd capacity is a very important risk factor for respiratory viruses and, on the other hand bovine adenoviruses and BRSV are the common reason of respiratory diseases in the region.     

Diarrheal condition in dogs associated with viruses antigenically related to feline herpesvirus

Viruses with properties consistent with herpesvirus were isolated from dogs with diarrhea. The viruses were shown to be antigenically related to feline herpesvirus-1 (FHV-1) by virus neutralization tests. It was also observed that a canine herpesvirus (CHV) prototype, D004, and two field isolates from fatal CHV infections in 2-week-old and 6-week-old puppies were neutralized at a low level by antiserum to FHV-1. Reciprocal neutralization tests with CHV antiserum against FHV-1 were negative. These results indicated that viruses related to FHV-1 can infect the dog and that there appears to be uni-directional virus neutralization of CHV by FHV-1 antibody.     

Seroprevalence of OHV-2, BVDV, BHV-1, and BRSV in ranch-raised bison (Bison bison).

Serum samples were collected at slaughter from 226 24-30-month-old American bison (Bison bison) bulls from Kansas, Minnesota, North Dakota, and Manitoba and assayed for antibodies to ovine herpesvirus type-2 (OHV-2), bovine viral diarrhea virus (BVDV), bovine herpesvirus type-1 (BHV-1), and bovine respiratory syncytial virus (BRSV). Antibodies were detected by serum neutralization for BVDV, BHV-1, and BRSV, while antibodies to OHV-2 were detected by competitive inhibition-ELISA (CI-ELISA). Detectable antibodies were found against all viruses: 10 of 226 (4.40%) against OHV-2, 125 of 226 (55.3%) against BVDV, 99 of 226 (43.8%) against BHV-1, and 208 of 226 (92.0%) against BRSV. Titers from 93.6% of the BVDV-positive animals, 79.8% of the BHV-1-positive animals, and 98.1% of the BRSV-positive animals were > or = 1.25. These data indicate that a low percentage of clinically normal bison are seropositive for OHV-2 while a high percentage of bison sampled are seropositive for BVDV, BHV-1, and BRSV.     

Antigenic and genomic comparisons of some feline parvovirus subspecies strains.

Fourteen feline parvovirus (FPV) strains isolated from cats, mink and dogs were comparatively examined on their antigenic and genetic diversities by using monoclonal antibodies against feline panleukopenia virus (FPLV) and restriction enzyme analysis of viral DNA. Mink enteritis virus (MEV) strains recently isolated in the northeastern area of the People's Republic of China were found to possess more similar antigenic and genetic properties to the antigenic variant virus of canine parvovirus (CPV) ("new" antigenic type CPV), than to FPLV strains and MEV Abashiri strain of Japan. A feline isolate detected in normal cat feces was considered to be rather CPV because of its antigenic and genetic characteristics. An early isolate of "new" antigenic type CPV strains showed a similar cleavage pattern to those of "old" antigenic type CPV strains when digested with HinfI. The results including some features above-mentioned suggest the presence of antigenic heterogeneities and genomic polymorphisms among FPV subspecies viruses.     

Serological comparison of cytopathogenic and non-cytopathogenic bovine viral diarrhea-mucosal disease viruses isolated from cattle with mucosal disease

Ten cattle that died with mucosal disease were examined for bovine viral diarrhea-mucosal disease (BVD-MD) viruses. Both cytopathogenic (CP) and non-cytopathogenic (NCP) BVD-MD viruses were isolated concomitantly from 9 of them, and only a CP virus was recovered from the other. Then each pair of CP and NCP viruses was compared serologically by a serum neutralization test. Each pair of CP and NCP viruses from the same cattle was found to be serologically indistinguishable, although a minor antigenic difference was observed among the groups of the paired viruses. These results seem to support the hypotheses that mucosal disease occurs in persistently infected cattle which were induced by in utero infection with NCP virus when they are superinfected with CP virus, and the antigenic homology in CP and NCP BVD-MD viruses may be an important factor in the pathogenesis of the disease.