Classical swine fever virus: a second ring test to evaluate RT-PCR detection methods

Six laboratories participated in a study to compare the sensitivity and specificity of RT-PCR tests for the detection of classical swine fever virus (CSFV). Sets of coded samples were prepared by serial dilution of positive samples and then distributed to each of the laboratories. One set comprised 25 samples of random primed cDNA, synthesised from viral RNA representative of different pestiviruses. The other set comprised samples of blood and serum obtained from virus-free or CSFV-infected pigs. Each laboratory tested the samples using PCR/RT-PCR according to a set of standardised protocols that specified the exact conditions and requirements for inclusion of control samples. Two types of test were evaluated. One amplified a part of the 5'-non coding region of the pestivirus genome by means of a closed, one-tube RT-nested PCR. The other amplified a part of the NS5B gene using non-nested RT-PCR. The results of the laboratories were compared with one another, and with those obtained earlier when similar samples were tested by the same laboratories using non-standardised methods [Paton et al., Classical swine fever virus: a ring test to evaluate RT-PCR detection methods, Vet. Microbiol., in press]. Standardisation of the protocols resulted in a more consistent test sensitivity. Three laboratories avoided significant false positive results. Others that did not, could nevertheless recognise that test specificity was inadequate from the results obtained with the control samples. Minimum requirements for the inclusion of adequate controls and periodic proficiency testing are proposed.

Molecular epidemiology of a large classical swine fever epidemic in the European Union in 1997-1998

A big epidemic of classical swine fever (CSF) occurred in the European Community in 1997. The first case was reported at the beginning of January 1997 from Germany. The disease presumably spread to the Netherlands, and from there to Italy, Spain and eventually to Belgium. About 30 isolates from these outbreaks were analysed by comparison of the nucleotide sequence data generated from fragments of both the E2 glycoprotein gene (190 nucleotides) and from the 5'-nontranslated region (5'-NTR; 150 nucleotides). By combining epidemiological data with genetic typing, it was found that the outbreaks were related and caused by a virus belonging to the genetic subgroup 2.1. As this type of virus had been reported infrequently in Europe and not at all since 1993, we postulate that it was newly introduced into the European Union (EU).

Genetic typing of classical swine fever virus isolates from the territory of the Czech Republic

Epizootiological studies based on genetic typing were performed using 14 isolates from outbreaks of classical swine fever (CSF) in domestic pigs and wild boar in the Czech Republic which occurred between 1991 and 1998. They were compared with Austrian, Slovakian, Hungarian, Polish and German isolates. The aim of this study was to characterise the CSF virus isolates and find out the possible relationships between the outbreaks in domestic pigs and wild boar, and to map the spread of the virus in the Czech Republic. For this, fragments of the 5' nontranslated region (5' NTR) and of the E2 glycoprotein gene were sequenced and used for genetic typing. The analysis of both fragments of the genome showed that the Czech isolates belong to two CSF subgroups within group 2, namely to subgroups 2.2 and 2.3. A close relation was found with Austrian isolates from 1992 and 1994, belonging to subgroup 2.2. The isolates in subgroup 2.3 formed a very homogeneous group, although they originated from different regions of the country. They seem identical to two Slovakian isolates from 1998, and differed from Hungarian isolates from 1992. Epizootiological links became evident when the epidemiological data were compared.

Epidemiology of classical swine fever in Germany in the 1990s

In Germany, 424 outbreaks of CSF in domestic pigs and a great number of cases in wild boar were recorded between 1990 and 1998. Most of the federal states ('Bundesländer') were affected. Epidemiological data from field investigations combined with genetic typing allowed to distinguish seven unrelated epidemics and a number of sporadic outbreaks in domestic pigs. Detailed epidemiological data was available for 327 outbreaks. It was found that 28% of these were primary outbreaks. Most of them were due to indirect or direct contact to wild boar infected with CSF virus or swill feeding. Infected wild boar remain the main risk for domestic pigs. The most frequent sources of infection in secondary or follow up outbreaks were the trade with infected pigs, neighbourhood contacts to infected farms and other contacts via contaminated persons and vehicles, respectively. An increased risk of virus transmission from infected herds to neighbourhood farms was observed up to a radius of approximately 500m. More than two thirds of the infected herds were discovered due to clinical signs. About 20% were identified by epidemiological tracing on and back. These were scrutinised because contacts to infected herds were evident. In conclusion, tracing of contact herds and clinical examination combined with carefully targeted virological testing of suspicious animals is likely to be the most important measure to immediately uncover secondary outbreaks. Obligatory serological screening in the surveillance and the restriction zones do not seem to be efficient measures to detect follow-up outbreaks.

Cellular insertions in the NS2-3 genome region of cytopathic bovine viral diarrhoea virus (BVDV) isolates

When compared to noncytopathic (ncp) bovine viral diarrhoea virus (BVDV), some cytopathic (cp) BVDV contain additional sequences in the NS2-3 genomic region. One of these insertions, which is 270 nucleotides long and of host origin (cINS), was first described for strain NADL. To find out how frequently this type of insertion occurs in other cp BVDV, 32 cp BVDV field isolates and the BVDV reference cp strain Indiana were screened using RT-PCR which detected cINS in NADL. For most cp viruses an RT-PCR product of 402bp indicated the presence of NS2-3 genes without insertions. In addition, one or two DNA fragments, around 600-850bp in size, were amplified from the genomes of 13 cp viruses indicating the presence of insertions. Sequencing of the PCR products, i.e. 402bp DNA fragment (with no insertion) and longer fragments (with insertion) revealed the location of the insertions in the NS2-3 coding region of eight cp BVDV genomes. All of the insertions were confirmed to be of the cINS type and were located in a very similar position to that found previously in the NADL genome. They were in the same reading frame as the viral polypeptide and they encoded 90-140 amino acids. The 5' and 3' ends of the insertions were different in most of the cp isolates studied. Interestingly, a 14-amino-acid stretch at the 5'-end of the insertion in the cp 5569 isolate as well as 15 amino acids at the 3'-end of the insertion in the cp 5.19516 isolate were not homologous to the cINS sequence. No significant matches for these stretches were found in the EMBL and Swissprot databases.

Comparative investigation of tissue alterations and distribution of BVD-viral antigen in cattle with early onset versus late onset mucosal disease

Tissue alterations and distribution of BVDV antigen were examined in nine cattle with early onset and five cattle with late onset mucosal disease (MD) to evaluate the possibility to differentiate between the two disease entities. MD was induced by inoculation of persistently viremic cattle with different strains of cytopathogenic BVDV. Animals which developed early onset MD became moribund approximately 2 weeks post-inoculation (pi); animals with late onset MD 42-115 days pi. All animals were euthanized and necropsied when moribund. Macroscopic lesions were found in the upper and lower digestive tract of cattle with early and late onset MD. In cattle with late onset MD, lesions in the oral cavity were generally milder and in the intestinal tract they were not only associated with GALT, but frequently affected the mucosa outside. Histologically, the abrupt changes between hyperplastic and atrophic areas of mucosa were striking in the cattle with late onset MD. This corresponded with the multifocal distribution of areas of mucosa in which intense staining for BVD-virus antigen could be demonstrated. In both courses of MD, a severe depletion of Peyer's patches was noted, but only in late onset MD, there was a complete loss of architecture. The most distinctive difference was the presence of vascular lesions which were observed in all five cattle with late onset MD, but in none of the animals with early onset MD. The vasculopathy was characterized by segmental necrosis of vascular walls and lymphohistiocytic perivasculitis in arterioles and small arteries in the submucosa of the intestine.

[Detection of the genome of bovine viral diarrhea virus (BVDV) using the polymerase chain reaction after reverse transcription (RT-PCR): comparison of methods for the isolation of ribonucleic acid (RNA) from clinical samples]

The RT-PCR is an in vitro technique that is increasingly being used for diagnosis of viral animal pathogens. Due to its high sensitivity it is considered as an alternative to current standard methods for detecting BVDV especially in pooled samples, e.g. from bulk tank milk. A prerequisite for the performance of RT-PCR is an efficient and simple method for sample preparation. The aim of this work was to compare the efficiency of three commercially available kits for RNA extraction, and their suitability for sample preparation for the detection of the BVDV genome by RT-PCR in blood, milk and tissue samples. The kits were based on different methods for extraction of RNA and differed in costs, labour and time consumption. The most sensitive RT-PCRs (exception: heparinised blood) were obtained when sample preparation was performed by acidic guanidinium-isothiocyanate-phenol-chloroform extraction with the Trizol (Gibco) reagent. Using a kit based on the binding of RNA to silica membrane in a spin column, positive results in RT-PCR were obtained from all samples, but with lower sensitivity. The advantage of the column-based kits is that they are less time-consuming, easier to handle and suitable for automatisation of sample preparation. A kit using salt precipitation of the desoxribose nucleic acid (DNA) and proteins was unsuitable for the isolation of viral RNA from the samples.

An actin-binding protein is involved in pestivirus entry into bovine cells

Infection of bovine cells with bovine viral diarrhoea virus (BVDV) can be blocked by the monoclonal antibody (mab) BVD/CA 26, which is directed against a cellular membrane protein. To characterize this molecule, it was isolated and purified by column chromatography. It was found to be an acidic, glycosylated membrane protein consisting of two polypeptide chains of about 28 and 56 kDa. Under non-reducing conditions the chains formed multimers of about 200 kDa. In an actin binding assay the 56 kDa polypeptide chain bound to F-actin as judged by co-sedimentation with actin filaments. Since the target molecule of BVD/CA 26 is localized on the surface of living cells and additionally binds to F-actin, a possible biological function may be to connect the cortical actin filaments with the cellular plasma membrane. The blocking effect of BVD/CA 26 indicates that this cellular plasma membrane protein is involved in the endocytic pathway of BVDV particles.

Structure and presentation of a World Wide Web database of CSF virus isolates held at the EU reference laboratory

A computerized database was generated with the epidemiological data of more than 600 CSF virus strains and isolates kept in the EU Reference Laboratory for Classical Swine Fever in Hanover. In addition, as sequence data from defined regions of the genome are increasingly being used for genetic typing of new isolates and are thus being published, it was decided to integrate them into the database. In order to make the epidemiological and the sequence data available to other laboratories through the World Wide Web, a searchable web interface was programmed, which can be accessed using an Internet browser like Netscape or Internet Explorer. The possibility to exchange data via the web has the potential to increase our knowledge concerning genetic and epidemiological links between outbreaks worldwide.

Genetic typing of classical swine fever virus

Three regions of the classical swine fever virus (CSFV) genome that have been widely sequenced were compared with respect to their ability to discriminate between isolates and to segregate viruses into genetic groups. Sequence data-sets were assembled for 55 CSFVs comprising 150 nucleotides of the 5' non-translated region, 190 nucleotides of the E2 envelope glycoprotein gene and 409 nucleotides of the NS5B polymerase gene. Phylogenetic analysis of each data-set revealed similar groups and subgroups. For closely related viruses, the more variable or larger data-sets gave better discrimination, and the most reliable classification was obtained with sequence data from the NS5B region. No evidence was found for intertypic recombination between CSFVs. A larger data-set was also analysed comprising 190 nucleotides of E2 sequence from 100 CSFVs from different parts of the world, in order to assess the extent and global distribution of CSFV diversity. Additional groups of CSFV are evident from Asia and the nomenclature of Lowings et al. (1996) [Lowings, P., Ibata, G., Needham, J., Paton, D., 1996. J. Gen. Virol. 77, 1311-1321] needs to be updated to accommodate these. A tentative assignment, adapting rather than overturning the previous nomenclature divides CSF viruses into three groups with three or four subgroups: 1.1, 1.2, 1.3; 2.1, 2.2, 2.3; 3.1, 3.2, 3.3, 3.4. The expanding data-base of CSFV sequences should improve the prospects of disease tracing in the future, and provide a basis for a standardised approach to ensure that results from different laboratories are comparable.

Phylogenetic comparison and molecular epidemiology of classical swine fever virus

The genetic diversity of classical swine fever virus (CSFV) was studied by RT-PCR amplification and sequencing of a 409 bp fragment of the NS5B polymerase region. A total of 106 viruses isolated from 20 countries over a period of 52 years (1945-1997) were included in the phylogenetic study. The results showed that the viruses could be divided into two main groups. Group 1 consisted of Asian and South American isolates from the 1980s, as well as of old European and American isolates. Group 2 consisted mostly of recent European viruses from the 1980s and 1990s, and was further divided into three subgroups largely according to geographic origin and/or year of isolation. Five 1997 CSFV isolates from Germany, Netherlands and Italy clustered together indicating a common origin for these outbreaks, but two other 1997 isolations in different regions of Germany are likely due to different epidemiological events. The results show that the NSSB region of the genome gives a good resolution for phylogenetic studies of CSFV. Molecular epidemiology based on nucleotide sequence diversity is a useful tool for tracing virus spread and for developing disease control strategies.

Analysis of the H gene, the central untranslated region and the proximal coding part of the F gene of wild-type and vaccine canine distemper viruses

This paper summarizes the results of the genetic analysis of several parts of the genome of canine distemper virus (CDV) field isolates and vaccine viruses. The haemagglutinin (H) gene analysis showed that recent viruses did not differ significantly from vaccine strains. The analysis of the long untranslated region between the matrix (M) and fusion (F) gene revealed distinct genetic heterogeneity. The putative F protein start codon AUG461 of vaccine strain Onderstepoort was found to be mutated in all wild-type isolates and in another vaccine strain. The proximal coding part of the F gene was well conserved. Phylogenetic analysis of this segment showed the presence of several cocirculating CDV genotypes.

[Emergence of "new" viral zoonoses]

In the last two to three decades a significant increase of viral zoonotic infections was observed. These zoonoses are not only newly (or previously unrecognized) emerging diseases, but also due to the reappearance of diseases thought to have been defeated (re-emerging diseases). "New" viral diseases can arise when viruses broaden their host-range (monkey poxvirus; equine morbillivirus), or can be a consequence of intrinsic properties of the virus itself, such as high mutation rates (influenza A virus). Most new or reemerging viral zoonoses are due to infections with hemorrhagic viruses. Many of them are transmitted by insects (arboviruses, e.g. yellow fever virus) or by rodents (e.g. Hanta viruses), others by contact with patients and nosocomial infections (e.g. Ebola virus). The emergence and increase of these diseases are a consequence of anthropogenic environmental changes, such as distortions of the ecological balance and changes in agriculture. In addition, the uncontrolled growth of the cities in tropical and subtropical regions without improvement of the public health measures and the increasing international animal trade and travel also favour the spread and recurrence of these diseases.

Application of a computer program for genetic typing of classical swine fever virus isolates from Germany

The commercial software program HLA SequiTyper (Amersham Pharmacia Biotech), designed originally for human leukocyte antigen typing, was adapted for rapid typing of classical swine fever (CSF) virus isolates. The program compares new sequence data with those stored in a database file and calculates the most probable assignment. For generating the CSF virus sequence database, 150 bp of the 5' nontranslated genomic region (5'-NTR) from 88 German classical swine fever virus isolates from outbreaks between 1984 and 1997 were solid-phase sequenced directly after RT-PCR amplification. Sequence alignments showed that they all belonged to the previously defined genetic group 2. Within this group, six different subgroups could be distinguished, and were designated according to the geographic location where they are either still endemic or where they appeared most commonly. The advantage of using the HLA SequiTyper program is that it reads directly the sequence files as generated by the ALF sequencer (Amersham Pharmacia Biotech), making any manipulations unnecessary. In addition, a constant quality control of the raw sequence data can be achieved, as more than one sequence from the same isolate can be evaluated at once. Using this approach, new CSF isolates can be typed within 2 days.

Organ and tissue distribution of the antigen of the cytopathogenic bovine virus diarrhea virus in the early and advanced phase of experimental mucosal disease

To study the development of lesions in mucosal disease, the spread of cytopathogenic (cp) bovine virus diarrhea virus (BVDV) to different organs was examined in relation to the time post inoculation (pi). Mucosal disease was induced in 15 persistently viremic cattle from two herds by intranasal inoculation with antigenically similar cp BVDV strain. This strain reacted with one additional monoclonal antibody when compared to the corresponding herd-specific non cytopathogenic (ncp) isolate. Twelve cattle were euthanized at days 3, 5, 7, 9 and 13 pi in the early phase before they developed clinical signs of mucosal disease, three in the advanced phase when they were moribund and three served as controls. Antigen of the cp BVDV strains was selectively detected in tissue sections by immunohistochemistry. In the early phase, varying amounts cp BVDV were present most consistently in tonsils, lymph nodes, Peyer's patches and lymphoid nodules in the large intestine. In the lymphoid tissues, first a few cells in single lymphoid follicles, then groups of lymphoid follicles contained antigen. In intestinal epithelium, cp BVDV antigen was found focally in the early phase of mucosal disease. Its diffuse distribution in the late phase corresponded with clinical signs of diarrhea.

[Apoptosis in virus infections of animals: a survey]

Cell death can be the consequence of different mechanisms. While necrosis always affects groups of cells and is linked to inflammation of the corresponding tissue, decay due to senescence is known as programmed or physiologic cell death. It affects single cells and is correlated with characteristic morphological and biochemical changes. These characteristic changes can also occur after induction of cell death before natural senescence and is then termed apoptosis. Apoptosis also plays an important role in the pathogenesis of viral infections, as viruses can either induce or inhibit cell death.

Experimental induction of mucosal disease: consequences of superinfection of persistently infected cattle with different strains of cytopathogenic bovine viral diarrhea virus

Mucosal disease (MD) can be induced in cattle persistently infected with noncytopathogenic bovine viral diarrhea virus (ncp BVD virus) by superinfecting them with antigenically related cytopathogenic (cp) BVD virus strains. While some of these animals succumb to early onset MD after 2 to 3 weeks post infectionem (p.i.), others only react by producing neutralizing antibodies against the cp BVD virus strain and may develop late onset MD after longer incubation periods. The aim of this study was to determine if an increasing degree of antigenic homology between the ncp and the superinfecting cp BVD virus strains as determined by their comparative reactivity with E2 glycoprotein specific monoclonal antibodies (mabs) increases the probability of inducing early or late onset MD, respectively. For this, each two of eight clinically healthy animals from the same herd and persistently infected with the same ncp BVD viruses were superinfected with four different cp BVD virus strains. As only two of these animals developed late onset MD, one animal from a different herd that developed early onset MD was included in the study. Besides clinical observation and testing for antibody production, virus isolation and characterization of the cp BVD virus isolates were performed. The results indicate that antigenic similarity as determined by comparative mab analysis alone is not sufficient to allow prediction of the outcome of the disease.

[Clinical-virologic course after superinfection of persistently infected cattle with cytopathogenic bovine viral diarrhea virus strains]

Vaccination with live cytopathogenic (cp) bovine viral diarrhoea virus (BVDV) is often used for control of this disease. In animals which are persistently infected with noncytopathogenic (ncp) BVDV this can lead to the outbreak of mucosal disease (MD). To simulate vaccination of such animals and to monitor the clinical-virological course after superinfection, nine clinically healthy calves which were persistently viremic were superinfected with different cp BVDV strains. One animal succumbed to early onset MD within three weeks after superinfection. During the observation period of 18 months four animals developed severe clinical signs. While two animals developed late onset MD, the other two had to be euthanized due to clinical signs which could not be related to the superinfecting BVDV. These results indicated that after superinfection or vaccination of persistently infected calves with cp BVDV the probability of developing early and/or late onset MD is significantly increased. The risks arising from uncritical vaccination of herds with unknown virological status in relation with the control of BVDV conforming to the actual official guidelines are discussed.

Serological cross-reactivity between Brucella abortus and yersinia enterocolitica 0:9: IV. Evaluation of the M- and C-epitope antibody response for the specific detection of B. abortus infections

Smooth lipopolysaccharides (SLPS) from Brucella abortus contain A-epitopes against which the majority of serum antibodies are directed during infections. SLPS from Yersinia enterocolitica 0:9 possesses identical epitopes, which are the cause for serological cross-reactivity. All Brucella spp. possess M- and C-epitopes which are not present in Y. enterocolitica 0:9. In order to examine the usefulness of these M- and C-epitopes for discriminatory serological testing, a panel of sera were used in this study, comprising sera from Y. enterocolitica 0:9-infected heifers, sera from B. abortus-infected cattle of comparable strength in the serological brucellosis tests to the sera from Y. enterocolitica 0:9-infected heifers, sera from B. abortus-infected bovines with strong serological reactions and sera from animals free from B. abortus or Y. enterocolitica infections. These sera were tested in blocking ELISAs with seven M- and one C-epitope-specific monoclonal antibodies in combination with SLPS from B. melitensis M16 high in M-epitopes as antigen. Strong B. abortus sera inhibited most strongly, while negative sera showed no or little inhibition. Sera with weak or intermediate titres blocked to a lower extent. Unexpectedly, the sera from Y. enterocolitica 0:9-infected heifers showed inhibition behaviour virtually identical to the comparable sera from B. abortus infected animals. Absorbing out of the A-epitope specific serum antibodies with either Y. enterocolitica 0:9 SLPS or with Y. enterocolitica 0:9 bacteria, indicated the presence of M- or C-epitope-specific serum antibodies in some sera from B. abortus-infected cattle but not in the sera from Y. enterocolitica 0:9-infected animals. These results demonstrate that the M- or C-epitope-specific antibody response in sera from B. abortus infected cattle is only of limited value for the serological discrimination between B. abortus and Y. enterocolitica 0:9 infections.

[Cytopathogenic bovine viral diarrhea viruses induce apoptosis in bovine cell cultures]

The pestivirus bovine viral diarrhea (BVD) virus is the causative agent of Mucosal Disease (MD) of cattle. From persistently infected animals, only the non-cytopathogenic biotype BVD virus can be isolated. Cattle succumbing to MD additionally harbour cytopathogenic BVD virus. While cp BVD virus isolates induce a cytopathic effect (cpe) in susceptible monolayer cell cultures, infection with ncp BVD virus isolates has no visible effect. The purpose of this study was to investigate the correlation between cpe and apoptosis.

Analysis of the haemagglutinin gene of current wild-type canine distemper virus isolates from Germany

The haemagglutinin (H) gene sequences from three wild-type canine distemper viruses (CDV) isolated during 1994-1995 were sequenced to determine whether contemporary strains had undergone significant genetic changes relative to the currently used vaccine strains. The new isolates were closely related to each other (> 99%) and displayed about 90-91% sequence homology to the Onderstepoort and Convac vaccine strains. There were one to four additional potential glycosylation sites compared to the vaccine strains which were also present in a German dog CDV isolate dating from 1990. However, only a very slight reduction in neutralizing titre against the new isolates was found when compared with the Onderstepoort and Rockborn vaccine strains. Cysteine and proline residues were well conserved indicating a conserved three dimensional structure for the protein. By phylogenetic analysis the recent isolates showed a narrow clustering close to the previous canine isolates indicating a linear pattern of evolutionary changes. A comparison with published CDV H gene sequences suggested the presence of different lineages of CDV on a global scale and possible cocirculation of more than one genotype of CDV.

The development of early vs. late onset mucosal disease is a consequence of two different pathogenic mechanisms

Bovine viral diarrhea (BVD) virus is the causative agent of fatal mucosal disease (MD) of cattle. Experimental induction of MD can be achieved by superinfection of calves persistently viremic with a noncytopathic (ncp) BVD virus using an antigenically similar cytopathic (cp) BVD virus. Here we describe the characterisation of BVD viruses isolated from three cases of experimentally induced MD. One animal developed clinical symptoms two weeks after superinfection (early onset MD), while the onset of disease in the other two cases occurred with a delay of months (late onset MD). Antigenic characterisation of the viruses was performed using a panel of monoclonal antibodies against the E2 glycoprotein. For genetic analysis, RT-PCR was applied to amplify specific insertions and duplications in the NS2-3 genomic region of the cp BVD viruses. In addition, these amplicons and fragments of the viral E2 genes were sequenced. The results showed that in the case of early onset MD the cp BVD virus isolated after begin of disease was identical to the one used for superinfection. In contrast, the cp BVD viruses isolated from the two animals with late onset MD were obviously the result of genetic recombinations between the persistent ncp and the superinfecting cp BVD viruses. We conclude that early and late onset MD are the consequence of different pathogenic mechanisms.

Identification of cell membrane proteins linked to susceptibility to bovine viral diarrhoea virus infection

Three monoclonal antibodies directed against cell surface molecules of bovine cells inhibited subsequent infections with bovine viral diarrhoea virus (BVDV). They specifically blocked the infectivity of three non-cytopathogenic and three cytopathogenic BVDV strains. These results showed that an important mechanism for virus uptake was inhibited. The ligand of the monoclonal antibody BVD/CA 17, which blocked infectivity most efficiently, was found on leukocytes from a wide range of domestic and wild even-toed ungulates using flow cytometric analysis. In contrast, the monoclonal antibodies BVD/CA 26 and BVD/CA 27 appeared to be specific for bovine cells. Immunoprecipitation of labelled bovine cell surface proteins showed that the three monoclonal antibodies bound to proteins with identical relative molecular masses (M(r)). Proteins of an apparent M(r) of 93 K and 60 K were precipitated from lysates of fetal bovine kidney cells irrespectively of the MAbs used.

Experimentally induced "late-onset" mucosal disease--characterization of the cytopathogenic viruses isolated

Antigenic and genetic analyses were performed in order to establish relationships between the noncytopathogenic (ncp) and the cytopathogenic (cp) bovine viral diarrhoea viruses (BVDV) involved in the induction of a case of experimentally induced "late-onset" mucosal disease (MD) symptoms. The persistent ncpBVDV, the cpBVDV used for superinfection (strain TGAC) and the virus isolates from faeces (cpX) were examined using an immunoplaque test (IPT) to distinguish between cp and ncp virus populations. The cp populations were cloned by plaque purification and found to be free of ncpBVDV when using the IPT. The cpBVDV clones and the persistent ncpBVDV were analysed in an enzyme immunoassay on heat-fixed infected cells (IM-EIA) and in a neutralization test using a panel of 27 monoclonal antibodies against the E0 (gp48) and E2 (gp53) viral glycoproteins. It was found that strain TGAC contained two antigenically distinct subpopulations of cpBVDV (TGAC-B1 and TGAC-B2). The endogenous ncpBVDV and the cpX clones had the same reactivity pattern in both tests. In addition, p80 gene duplications in the genomes of the cpBVDV clones were analysed using the polymerase chain reaction and subsequent restriction enzyme analysis of the amplicons. The clones analysed from TGAC-B1 and those from cpX had gene duplications of identical sizes showing the same restriction enzyme patterns. Our results suggest that the cpBVDV which finally lead to "late-onset" MD arose by recombination and/or by mutations of the cpBVDV used for superinfection.