Isolation and identification of bluetongue virus.

Bluetongue virus (BTV) is an arthropod-borne orbivirus that infects sheep, wild ruminants and occasionally cattle. Detection and specific identification of BTV is a multistep process. The first step involves the isolation of the virus from the animal's blood or other tissues, followed by inoculation of embryonating chicken eggs (ECE). After the virus has been amplified in ECE, it is passaged into BHK-21 cell culture for subsequent replication and identification. The virus is then amplified further and identified in microtiter plates by the immunoperoxidase assay using a group specific monoclonal antibody. Finally, the viral isolate is typed by a virus neutralization test.

Efficacy of vaporized hydrogen peroxide against exotic animal viruses.

The efficacy of vapor-phase hydrogen peroxide in a pass-through box for the decontamination of equipment and inanimate materials potentially contaminated with exotic animal viruses was evaluated. Tests were conducted with a variety of viral agents, which included representatives of several virus families (Orthomyxoviridae, Reoviridae, Flaviviridae, Paramyxoviridae, Herpesviridae, Picornaviridae, Caliciviridae, and Rhabdoviridae) from both avian and mammalian species, with particular emphasis on animal viruses exotic to Canada. The effects of the gas on a variety of laboratory equipment were also studied. Virus suspensions in cell culture media, egg fluid, or blood were dried onto glass and stainless steel. Virus viability was assessed after exposure to vaporphase hydrogen peroxide for 30 min. For all viruses tested and under all conditions (except one), the decontamination process reduced the virus titer to 0 embryo-lethal doses for the avian viruses (avian influenza and Newcastle disease viruses) or less than 10 tissue culture infective doses for the mammalian viruses (African swine fever, bluetongue, hog cholera, pseudorabies, swine vesicular disease, vesicular exanthema, and vesicular stomatitis viruses). The laboratory equipment exposed to the gas appeared to suffer no adverse effects. Vaporphase hydrogen peroxide decontamination can be recommended as a safe and efficacious way of removing potentially virus-contaminated objects from biocontainment level III laboratories in which exotic animal disease virus agents are handled.

Embryo transfer as a means of controlling the transmission of viral infections. XV. Failure to transmit bluetongue virus through the transfer of embryos from viremic sheep donors.

The first experiment involved in vitro exposure of clean embryos to bluetongue virus (BTV) while three subsequent experiments involved the collection of embryos from BTV-infected donor ewes and their transfer to disease-free recipients. In Experiment I, 22 embryos/ova were exposed to BTV type 11 (BTV-11) for 1 h, washed 10 times in PBS and assayed in pairs for BTV. All 11 samples were positive for BTV in the 11-d-old embryonated chicken egg (ECE) assay system and 5/11 samples were positive in baby hamster kidney-21 (BHK-21) cells. In Experiment II, 5 donors were infected with BTV type 10 (BTV-10). All embryos were washed 10 times prior to assay or transfer. Thirty-three embryos/ova were assayed in groups of 2 or 3 and none yielded virus in ECE. Two BTV-seronegative recipients each received 6 embryos and a total of 3 lambs free of BTV antibodies were delivered. In Experiments III and IV, a total of 9 donors were infected with BTV-11. All embryos were washed 10 times prior to assay or transfer. Seventy-four embryos/ova were assayed in groups of 2 or 3 and none yielded virus in ECE, while for each experiment, 6 embryos were transferred into 2 BTV-seronegative recipients. The four recipients and their 3 lambs and 2 aborted fetuses were also seronegative for BTV.

Evaluation of nucleic acid amplification methods for the detection of hog cholera virus.

A blind panel was tested in a diagnostic evaluation of a reverse transcription (RT) polymerase chain reaction (PCR) method for detecting hog cholera virus (HCV) from pig tissues. The capability of the RT-PCR test to discriminate between HCV and related pestiviruses, bovine viral diarrhea virus (BVDV), and those viruses causing similar diseases in swine, including African swine fever virus (ASFV) and pseudorabies virus (PRV), was also considered. Nucleic acid extraction involved either kit-based or conventional phenol:chloroform:isoamyl alcohol methods. A single-round PCR assay, using primers that hybridize to the conserved p120 nonstructural gene region, was 82.5% sensitive (n = 17) and 100% specific (n = 18) in the detection of the presence of HCV RNA. However, the sensitivity was increased to 100% following a second PCR test. In all, 4 HCV, 7 BVDV, 2 ASFV, and 1 PRV isolates were studied. Novel nucleic acid sequences were generated for 9 HCV strains. Analysis of a portion of the p120 region using these methods was suitable for HCV isolate characterization.

Development of PCR-based tests for the identification of North American isolates of epizootic haemorrhagic disease virus.

A serogroup-specific polymerase chain reaction (PCR) assay and isolate identification strategies (restriction endonuclease analysis (REA) and nucleotide sequencing) were developed for the detection of North American isolates of epizootic haemorrhagic disease virus (EHDV). PCR primers (EHDV-pr4, EHDV-pr5) were designed to hybridize to the L3 gene of a North American isolate of EHDV serotype 1. Total nucleic acid was extracted from preparations of infected tissue culture and PCR was performed using a cDNA-PCR kit, according to the manufacturer's specifications. The PCR assay generated a 459 base pair product from North American isolates of EHDV serotypes 1 and 2, while bluetongue virus (BTV) serotypes 10, 11, 13, and 17, and cell controls, failed to demonstrate PCR products. Slight modifications allowed for the PCR detection of EHDV-1 and -2 in white-tailed deer blood (Odocoileus virginiatus); PCR fragments were not amplified from uninfected deer blood. A number of restriction endonucleases and sequencing primers were evaluated for their utility in isolate identification experiments. Specifically, REA employing HincII and cycle sequencing with an internal primer (EHDV-1-pr3) proved most successful for identifying isolate-specific genome markers. The techniques presented are expected to prove valuable for rapid and specific detection of possible future EHDV incursions in wild and domestic animal species.

Application of a competitive ELISA for the detection of bluetongue virus antibodies in llamas and wild ruminants.

A competitive enzyme-linked immunosorbent assay (C-ELISA), using a group-specific monoclonal antibody against bluetongue virus (BTV), was applied to detect anti-BTV antibodies in serum samples from two llamas (Llama glama) experimentally infected with BTV serotype 10. Antibodies were detected in both llamas by 1 wk or 2 wk post-infection. Antibodies to BTV increased exponentially during the first 4 wk in both llamas and stabilized at an elevated level during the remaining 5-wk-period of the experiment. We evaluated the C-ELISA for 1,442 field sera from bluetongue-free areas, collected from 398 llamas in New Zealand as well as 451 elk (Cervus elaphus canadensis), 323 bison (Bison bison) and 270 reindeer (Rangifer tarandus tarandus) in Canada. Based on the frequency distribution of the C-ELISA values, we propose that the current negative cut-off value of 50% inhibition established for bovine field sera also can be applied to the sera from these wild ruminants. The C-ELISA values for other wild ruminant field sera collected in bluetongue-free areas of Canada from 98 native caribou (Rangifer tarandus caribou), 32 white-tailed deer (Odocoileus virginianus), 14 moose (Alces alces), and nine musk-oxen (Ovibos maschatus) and 15 yak (Bos grunniens) also were less than 50%, with the exception of three caribou samples. Based on our results, we propose that the C-ELISA be used as a rapid and specific test for serodiagnosis of BTV infection in llamas and possibly other wild ruminants.

Isolation of caliciviruses from skunks that are antigenically and genotypically related to San Miguel sea lion virus.

Caliciviruses were isolated from feces of skunks imported from the north central United States to Canada. Virus isolation was accomplished using adenovirus-transformed human kidney (293) cells, swine testes and Vero cells. Plaque size variants were presented, but there was no apparent difference in virus morphology by negative stain or immune electron microscopy. Pigs infected with skunk calicivirus had a slightly elevated body temperature at 3 days postinfection. Although the infected animals seroconverted, no overt clinical signs were observed. Purified infectious genomic skunk calicivirus RNA behaved exactly as San Miguel sea lion virus (SMSV) 1 and 4 genomic RNA in cell culture transfection studies. Of the cell types examined, only primary porcine kidney, 293 and Vero cells supported viral replication. No viral replication was detected in cells of bovine, equine, ovine, caprine or feline origin. The skunk caliciviruses contained a single capsid protein with a relative mobility similar to SMSV virus 1 and 4 capsid proteins. The capsid protein was positive by Western blot analysis with SMSV and vesicular exanthema of swine virus (VESV) antisera. Purified RNA from skunk calicivirus infected cells was subjected to reverse transcription followed by polymerase chain reaction. Nucleotide sequences were identified that had greater than 85% similarity to the 2C and RNA polymerase gene regions of SMSV 1 and 4 and VESV A48. Predicted amino acid sequences of these regions were greater than 95% similar and the partial coding sequence of the polymerase gene contained the YGDD sequence common to positive-strand RNA virus polymerases.

Evaluation of a commercial competitive ELISA test kit for the detection of group-specific antibodies to bluetongue virus.

The performance of a competitive (c) enzyme-linked immunosorbent assay (ELISA) test kit, Blueplate Special (BPS), commercially produced by DiagXotics (Wilton, CT) for detection of group-specific antibodies to bluetongue virus (BTV) was compared with that of an internationally endorsed cELISA-I. A total of 1,026 serum samples were tested in this study: 133 samples from 23 calves and 3 sheep experimentally infected with South African isolates of 19 BTV serotypes and US isolates of 5 BTV serotypes and 7 calves infected with US isolates of 2 epizootic haemorrhagic disease of deer virus (EHDV); 102 paired sera from cattle, sheep, and goats experimentally infected with the Australian isolates of BTV, EHDV, and Palyam virus; 229 bovine and ovine samples of Canadian origin (BTV free); and 562 bovine and ovine field samples from the USA and Barbados (BTV endemic). Seroconversion was demonstrable by the BPS cELISA 10 days postinfection in all experimental animals inoculated with BTV, with the exception of 4 calves in which there was a delay of 10-20 days. Similar to the cELISA-I, none of the sera from calves inoculated with US and Australian isolates of EHDV and Palyam viruses cross-reacted with the BTV antigen in the BPS cELISA. The total agreement between the two assays for all the total bovine and ovine field sera was 98.1%. The overall results substantiate the usefulness of the BPS cELISA test kit for monitoring animal sera for group-specific antibodies to BTV.(ABSTRACT TRUNCATED AT 250 WORDS)

Development of a competitive enzyme-linked immunosorbent assay for detection of bovine, ovine, porcine, and equine antibodies to vesicular stomatitis virus.

Two competitive (C) enzyme-linked immunosorbent assays (ELISAs) were developed for the detection of antibodies to vesicular stomatitis virus (VSV) in animal sera. The assays are based upon the availability of polyclonal antibodies (PAbs) from mouse ascitic fluids prepared against the New Jersey (NJ) and the Indiana (IN) VSV serotypes. The assays were performed by the immobilization of VSV-NJ and VSV-IN antigens on a solid phase (microtiter plate). Appropriately diluted test serum mixed with an equal volume of serotype-specific PAb was allowed to incubate in the presence of the relevant VSV antigen and finally with an enzyme-conjugated anti-mouse immunoglobulin. In the absence of anti-VSV antibodies in the test serum, the VSV antigen sites are reactive with the relevant PAb (NJ or IN) as indicated by color development after enzyme degradation of substrate. If the test serum contains the homologous VSV-NJ or VSV-IN antibodies, they compete with the relevant PAb for immobilized antigen sites and quantitatively block and inhibit the PAb reaction and subsequent color development. The performance of C-ELISAs in detecting anti-VSV antibodies in serum samples from four calves, two horses, four sheep, and seven pigs experimentally infected with VSV-NJ and VSV-IN was evaluated. The sensitivity and specificity of the C-ELISAs were compared with those of the standard microtiter serum neutralization (MTSN) tests. Homologous antibodies were demonstrable by C-ELISAs as early as 5 days postinfection (DPI) in one horse and one sheep infected with VSV-IN serotype. Seroconversion was demonstrable by C-ELISAs and MTSN tests in all animals by 9 DPI except in one sheep that received VSV-NJ and one horse inoculated with VSV-IN serotype which, on the basis of the MTSN test results, did not seroconvert until 14 and 11 DPI, respectively. The dynamics of homologous antibody response in all animals as revealed by the corresponding type-specific C-ELISAs paralleled the results of the MTSN tests. The type-specific antibodies to VSV serotypes increased exponentially during the first 2 to 4 weeks postinfection and remained relatively stable for about 6 months in some animals. The results suggest that the C-ELISAs offer many advantages over the MTSN tests and have potential applications as rapid and inexpensive tests in serodiagnosis of VSV infections in animals.

Application of indirect ELISA for detection of bovine antibodies against vesicular stomatitis viruses.

Two indirect enzyme-linked immunosorbent assays (I-ELISAs) are described for the detection of bovine serum antibody to the New Jersey (NJ) and Indiana (IN) vesicular stomatitis viruses (VSV). Serum samples at a dilution of 1:200 were incubated with binary ethylenimine-inactivated VSV-NJ and VSV-IN type-specific antigens preadsorbed to microtiter plates. Bound antibodies were detected by a murine monoclonal antibody to bovine IgG1 conjugated with horseradish peroxidase. The performance of each I-ELISA in detecting homotypic and heterotypic antibodies to VSV-NJ and VSV-IN in sequential serum samples from calves experimentally infected with VSV-NJ or VSV-IN was evaluated. The I-ELISAs detected serotype-specific antibodies to either VSV-NJ or VSV-IN in calves infected with the homologous serotype. Homotypic but not heterotypic anti-VSV-NJ antibodies were first demonstrable by the VSV-NJ I-ELISA during the second week postinfection and remained at an elevated level for a period of 11 weeks, with a gradual decrease thereafter. Similar homotypic antibody profiles measured by the VSV-IN I-ELISA in calves inoculated with VSV-IN were observed. The performances of the I-ELISAs were compared using 1,495 microtiter serum neutralization (MTSN) test-negative bovine field sera collected from cattle in Canada (VS free) and 429 samples collected from cattle in the USA and Mexico (VS-epidemic and VS-endemic areas). The diagnostic specificities of the VSV-NJ and VSV-IN I-ELISAs for the Canadian samples relative to the MTSN test results were in the range of 99.8% and 99.7%, respectively.(ABSTRACT TRUNCATED AT 250 WORDS)

Development and evaluation of an enzyme-linked immunosorbent assay for detection of bovine antibodies to epizootic hemorrhagic disease of deer viruses.

An indirect enzyme-linked immunosorbent assay (I.ELISA) is described for detection of bovine serum antibody to epizootic hemorrhagic diseases of deer virus (EHDV). Serum samples, at a dilution of 1:200, were incubated with group-specific EHDV antigens, pre-adsorbed to microtiter plates. Bound antibodies were detected by a murine monoclonal antibody to bovine immunoglobulin (Ig)G1 (heavy-chain specific) conjugated with horseradish peroxidase. The performance of the I.ELISA in detecting antibodies to EHDV in sequential serum samples from calves experimentally infected with serotypes 1,2,3 and 4 was evaluated. The I.ELISA detected EHDV antibodies from 14 days postinfection when seroconversion by the standard agar gel immunodiffusion (AGID) test was also evident. The group-specific antibodies to EHDV increased exponentially during the first two to four weeks postinfection and remained relatively stable for about 12 months in some calves. Unlike observations with the AGID test, no reaction was seen in the I.ELISA between blue-tongue virus (BTV) antigen and sera from calves given a single dose of EHDV. The performance of the I.ELISA and AGID were compared using 3,135 AGID negative bovine field sera from herds in Ontario, Alberta and British Columbia and 130 AGID positive samples collected from cattle in 1987 and 1988 during and after outbreaks of EHD in the Okanagan Valley, British Columbia. The specificity and sensitivity of the assay relative to the AGID test were 99.3% and 91.5% respectively, with an overall agreement of 99.0% between the tests.(ABSTRACT TRUNCATED AT 250 WORDS)

Comparison of blocking dot ELISA and competitive ELISA, using a monoclonal antibody for detection of bluetongue virus antibodies in cattle.

A blocking (B) dot enzyme-linked immunosorbent assay (ELISA), using a monoclonal antibody (mAb) against a group specific antigen of bluetongue virus (BTV) is described for the detection of BTV antibodies to BTV in cattle sera. Dots of BTV antigens were adsorbed to nitrocellulose (NC) strips and/or NC mounted in the windows of dipsticks. After blocking the remaining sites of the NC paper with milk powder solution and immersion in the test sample, the NC strips and dipsticks were exposed to mAb. Bound mAb was detected with peroxidase conjugated anti-mouse IgG (H and L). In the absence of anti-BTV antibody in the test sample, BTV antigen sites were reactive with mAb as indicated by a brown colored dot in the presence of the enzyme substrate, hydrogen peroxide and diaminobenzidine. In the presence of sufficient anti-BTV antibodies no color reaction was observed. The performance of these assays in detecting anti-BTV antibody in field blood eluate samples, prepared from whole blood dried on filter paper, from 395 bluetongue-free cattle in Canada and 635 sentinel cattle in Florida, USA, was evaluated and compared with the standard competitive (C) ELISA. The specificity of the dipstick B-dot ELISA was identical to that of the C-ELISA in testing of BT-free Canadian cattle but not in the testing of samples from the sentinel cattle in Florida, resulting in values of 100% diagnostic and 88.9% relative specificity, respectively. Based on the C-ELISA, the specificity of the NC strip B-dot ELISA was low and in the same order as that of the dipstick assay.(ABSTRACT TRUNCATED AT 250 WORDS)

Evolving perceptions of bluetongue: A challenge for government and industry.

From the first discovery of bluetongue virus activity in Canada in the Okanagan Valley of British Columbia in 1976 to the present, more than 175,000 sera from cattle in Canada have been tested for the presence of bluetongue antibody during the course of disease investigations and during regional or national surveys. Serological reactors have been detected only in cattle resident in the Okanagan Valley or in those originating in the United States.Despite the regional nature of the distribution of antibody to bluetongue, international trade sanctions were applied on a nationwide basis. The strategy of the federal government for limiting the international, as well as the domestic, impact of bluetongue has evolved over the past 15 years as the epizootiology of bluetongue has become better understood. This new information is also ameliorating somewhat international attitudes toward nations which experience infections.

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.

Gamma irradiation alters bluetongue virus protein antigen.

Bluetongue virus (BTV) antigen, prepared for a monoclonal antibody (MAb)-based competitive enzyme-linked immunosorbent assay (C-ELISA), was exposed to 1, 2, 3, 4, 5 and 6 Mrad of gamma irradiation. The major group-specific BTV protein (VP7) reactive with the Mab was altered at higher doses of radiation, as revealed by immunoblotting studies. As well, a reduction in immunoreactivity was noted when irradiated antigen was used in the ELISA.

A survey of cattle for antibodies against bluetongue and epizootic hemorrhagic disease of deer viruses in British Columbia and southwestern Alberta in 1987.

In 1987 a serological survey of cattle for antibodies (Ab) to bluetongue virus (BTV) and epizootic hemorrhagic disease virus (EHDV) was undertaken in British Columbia and southwestern Alberta after infection with the viruses was diagnosed in wild and domestic ruminants in the Okanagan Valley. Of 4610 cattle tested, five had Ab only to BTV, 125 had antibodies only to EHDV and 16 had Ab to both viruses. The Ab were identified as specific for BTV type 11 (BT-11) or EHDV type 2 (EHDV-2). All but one of the seropositive cattle originated in the Okanagan Valley of British Columbia. The remaining one seropositive animal which had Ab to EHDV-2 was pastured with a bull purchased from the Okanagan Valley.

Dot immunoperoxidase assay using monoclonal antibody for detection of bluetongue virus antigens.

A rapid, simple dot immunoperoxidase assay (DIPA) is described for visual detection and identification of bluetongue virus (BTV) antigens in samples of infected cell culture fluid. The assay was performed using nitrocellulose (NC) paper and 'dipsticks'. Dots of samples were adsorbed to the NC surface and the remaining non-specific binding sites were blocked with skim milk solution. BTV was detected with either of two murine monoclonal antibodies (4H4, 5G12) to the major group specific antigens of BTV, and the complex was reacted with a peroxidase conjugated anti-mouse immunoglobulin G (heavy- and light-chain specific). Positive reactions were easily visualized as brown spots after enzyme degradation of substrate containing H2O2 and diaminobenzidine (DAB). The DIPA was specific in detecting BTV in samples of cell culture fluid from baby hamster kidney (BHK-21) cells infected with U.S.A. isolates of the five BTV serotypes (2, 10, 11, 13 and 17) known to exist in the U.S.A., and South African isolates of 17 BTV serotypes (1-12, 14-16, 18 and 20), but not with two North American isolates of epizootic hemorrhagic disease of deer virus (EHDV) representing serotypes 1 and 2. Attempts to detect BTV directly in infected sheep blood cells and chick embryo tissue suspensions by DIPA were unsuccessful. Of 55 cell culture fluid samples examined from BHK-21 or Vero cell monolayers inoculated with 55 clinical specimens, propagated initially in embryonating chicken egg (ECE) 11 proved positive and 44 were negative by DIPA. The results were in complete agreement with the conventional ECE and tissue culture isolation systems. The DIPA appears to have potential application, especially as a 'dipstick' kit, for rapid and inexpensive laboratory diagnosis of bluetongue virus infection.

Comparative evaluation of the fluorescent antibody test and microtiter immunoperoxidase assay for detection of bovine viral diarrhea virus from bull semen.

An indirect immunoperoxidase staining technique (IP) is described for the detection of bovine viral diarrhea virus (BVDV) in bovine semen. The performance of the IP was compared to the reference immunofluorescent staining test in its ability to detect BVDV in 23 coded field semen samples. The IP assay which can be applied with ease to a large number of samples and does not require expensive fluorescence microscope equipment, appears to be an alternative method for BVDV detection. The IP assay can be strongly recommended for certification of BVDV-free bovine semen for artificial insemination and trading purposes and for laboratories which are not equipped for performing the immunofluorescent test.