Assessment of the base sequence homology between the two subtypes of equine herpesvirus 1

Latency and persistence of bovine herpesvirus type 4, strain B11-41, in bovine nervous tissues

Three cattle were experimentally infected with bovine herpesvirus type 4 (BoHV-4), strain B11-41, isolated from the spinal cord of a cow, and monitored for clinical symptoms. None of them showed any clinical signs except increases of leukocyte numbers in two of them, and the body temperature remained normal throughout the experiment. Antibody titers against BoHV-4 continuously increased for one month and were maintained at a high level for more than 1 year by enzyme-linked immunosorbent assay (ELISA). The virus was isolated only from serum and peripheral blood leukocytes (PBL) of one cow in the early stage of infection, but the viral genome was detected in PBL continuously by PCR. When they were euthanized, the viral genome was detected in the lymph nodes and nervous tissues such as medulla, spinal cord, and trigeminal ganglion. These results indicate that cattle are infected with the virus latently and persistently, and the latency site would be in the tissues of the central nervous system as well as lymphoid tissues. When a seroepidemiological survey was performed on antibodies to BoHV-4 among cattle in Japan by ELISA, the rate of antibody-positive cattle was 8.9% and they were found irregularly on certain farms.

Direct detection of equine herpesvirus DNA in tissues of aborted equine fetuses

Restriction endonuclease analysis of equine herpesviruses 1 (EHV-1) and 4 has been investigated using cultured cells infected with these viruses. The DNA cleavage patterns of these viruses were observed in the intracellular DNA after digestion with Eco RI and electrophoresis. This procedure was applied to the diagnosis of equine herpesvirus infection in aborted equine fetuses. The characteristic Eco RI restriction pattern of EHV-1 DNA was directly detectable in the emulsion of lungs collected from aborted equine fetuses.

Detection of antibodies against equine herpesvirus types 1 and 4 by using recombinant protein derived from an immunodominant region of glycoprotein B

The N-terminal fragment comprising residues +1 to +50 (gB1-50) of equine herpesvirus type 1 (EHV-1) glycoprotein B was expressed as a glutathione S-transferase fusion protein in Escherichia coli. Recombinant gB1-50 (rgB1-50) was recognized in immunoblots by sera from rabbits immunized with EHV-1 and by convalescent-phase sera from horses with natural EHV-1 infections. An enzyme-linked immunosorbent assay (ELISA) for monitoring antibody levels against EHV-1 was developed by using rgB1-50, and its specificity was assessed with a panel of reference antisera against other equine viruses. A specific cross-reaction was detected with EHV-4, which was confirmed by inhibition ELISA. Convalescent-phase sera from horses with natural EHV-1 or EHV-4 infections possessed antibody titers against rgB1-50 ranging from 1:2,000 to 1:64,000, indicating the presence of an immunodominant antigenic site. The study demonstrated the potential application of rgB1-50 as a diagnostic antigen and highlights the glutathione S-transferase fusion system as a simple and effective method of producing purified milligram quantities of antigen.

The molecular epidemiology of equine herpesvirus 1 (equine abortion virus) in Australasia 1975 to 1989

The restriction endonuclease DNA fingerprints of 57 isolates of equine herpesvirus 1 (EHV1; equine abortion virus) from abortion, perinatal foal mortalities and encephalitis from 15 epidemics that occurred in Australasia between 1975 and 1989 were examined using the enzymes Bam HI, EcoRI and Bgl II. There was a remarkable degree of uniformity in the restriction patterns; mobility differences were observed in only 14 of 52 (27%) of the fragments. Twelve of these 14 fragments were located within the repeat structures that bracket the unique short region of the genome or were located at the left terminus of the 150 kilobase pair genome. Based on the Bam HI fingerprints the commonest virus identified in our study was EHV1.IP (P is for prototype strain). There was a single notable exception in that the Bam HI fingerprints of all 8 isolates from one of 3 Victorian farms that experienced abortion in 1989 resembled a variant EHV1.IB that was identified as a cause of abortion in Central Kentucky in 1970 to 1974. We present evidence that EHV1.IB caused abortion in California in 1964 and has remained unaltered in its Bam HI restriction pattern. No antigenic differences were found among 4 distantly related EHV1 isolates, including the variant IB, using a panel of 5 monoclonal antibodies to glycoprotein C (gC), a glycoprotein recognised to be highly variable. The uniformity of these unrelated EHV1 isolates is further evidence for a recent origin for EHV1 and may help to explain the natural history of this virus in the horse in which it seems to be a cause of serious epidemics of abortion and perinatal mortality, and less commonly of encephalitis.

Rapid identification and differentiation of the vaccine strain Rac H from EHV 1 field isolates using a non-radioactive DNA probe

A method for rapid differentiation between the EHV 1 live vaccine strain Rac H and field isolates is described. Total DNA was isolated from virus-infected small scale cell cultures. DNA fragments digested with restriction endonuclease BamHI were separated, transferred and immobilized on filter membranes. A Digoxigenin-labeled probe derived from EHV 1 was used for hybridization. This probe hybridized specifically to sequences of the inverted terminal repeat region which in case of Rac H include a deletion of 0.8 kb. By comparing the different migration patterns after blot hybridization it could be shown that in 65 isolates from cases of abortion the live vaccine strain Rac H was not involved.

Animal cytomegaloviruses

Cytomegaloviruses are agents that infect a variety of animals. Human cytomegalovirus is associated with infections that may be inapparent or may result in severe body malformation. More recently, human cytomegalovirus infections have been recognized as causing severe complications in immunosuppressed individuals. In other animals, cytomegaloviruses are often associated with infections having relatively mild sequelae. Many of these sequelae parallel symptoms associated with human cytomegalovirus infections. Recent advances in biotechnology have permitted the study of many of the animal cytomegaloviruses in vitro. Consequently, animal cytomegaloviruses can be used as model systems for studying the pathogenesis, immunobiology, and molecular biology of cytomegalovirus-host and cytomegalovirus-cell interactions.

Genomic termini of equine herpesvirus 1

After cell infection with the equine herpesvirus 1 (EHV-1), the termini of the linear double-stranded DNA genome fuse to form circular forms. To investigate the mechanisms in the generation and cleavage of such replicative-form DNAs, the genomic termini, the fusion of termini from replicative-form molecules, and the junction between the short and long genome segments have been analyzed by restriction mapping, blot hybridizations, cloning, and sequencing. The data suggest that the genome ends are not redundant and that the genomic termini are fused in replicative intermediates via 3' single-base extensions at the termini of the unique long segment (UL) and terminal repeat (TR). Adjacent to the EHV-1 termini are AT and gamma sequence elements highly conserved among different herpesviruses. We propose that both of these sequence elements are important for the cleavage of EHV-1 replicative forms.

Molecular biological characterization of equine herpesvirus type 1 (EHV-1) isolates from ruminant hosts

Isolates of equine herpesvirus type 1 (EHV-1) originating from affected antelope and cattle were compared with reference EHV-1 and EHV-4 isolates and were characterized. Based on cross-neutralization, DNA restriction profiles and blot-hybridization data these isolates could be characterized as EHV-1. One isolate (from an antelope) with a different restriction profile showed significant DNA homology with EHV-1, partial homology with EHV-4, and little or no homology with EHV-2 and HSV-1 DNAs. Blot hybridization revealed differences in DNA restriction fragments located at the termini of two isolates and size heterogeneity in the unique long/internal repeat junction fragment (UL/IR) of one isolate.

Asinine herpesvirus genomes: comparison with those of the equine herpesviruses

Two previously unknown and distinct herpesviruses were isolated from donkeys. One, with the characteristics of a betaherpesvirus, was isolated from the leukocytes of an apparently healthy donkey, while the second, an alphaherpesvirus, was recovered from the nasal cavity of donkeys given high doses of corticosteroids, and caused rhinitis in two seronegative weanling donkeys when they were intranasally infected. Few, if any, restriction endonuclease fragments were shared by the donkey betaherpesvirus, equine herpesvirus 2 (EHV 2) or EHV 5, a second distinctly different equine betaherpesvirus, nor by the donkey alphaherpesvirus, EHV 1, EHV 4, or EHV 3. In Southern blot analysis the donkey betaherpesvirus showed low levels of sequence similarity to both EHV 2 and EHV 5, while the donkey alphaherpesvirus and EHV 1 shared a moderate degree of sequence similarity, less similarity with EHV 4 and very low level of sequence similarity with EHV 3. These two isolates appear prototypic of two previously unrecorded herpesviruses for which the names asinine herpesvirus 2 and 3 are suggested for the betaherpesvirus and the alphaherpesvirus respectively.

Equine herpesvirus genomes: heterogeneity of naturally occurring type 4 isolates and of a type 1 isolate after heterologous cell passage

The restriction endonuclease DNA fingerprints of 20 low passage, epidemiologically unrelated isolates of equine herpesvirus 4 (equine rhinopneumonitis virus) showed considerable heterogeneity in certain fragments, the positions of which were assigned to quite restricted positions on the 141 kilobase (kb) genome. We note that the heterogeneity observed in the restriction endonuclease DNA fingerprints of EHV 1 (equine abortion virus) and of pseudorabies virus also tend to map to these same restricted regions. The restriction endonuclease DNA fingerprints of an EHV 1 strain was invariant using low (less than 1) multiplicity of infection during 20 passages in equine cells but when adapted to hamster cells developed an approximately 0.8 kb deletion in the unique short region of the genome between 8 and 11 passages.

Equine herpesvirus type 1 (EHV-1) induced abortions and paralysis in a Lipizzaner stud: a contribution to the classification of equine herpesviruses

Out of 30 cases of abortion and perinatal deaths in a Lipizzaner stud in Austria 10 mares died after having shown central nervous system disturbances, ataxias and paralysis. The etiological agent of this "abortion storm" was equine herpesvirus type 1 (EHV-1). The restriction enzyme pattern of the DNA from 5 isolates recovered from fetuses has been analyzed and compared with the known reference strains of EHV-1, -2, -4 and an Austrian vaccine strain. The DNA restriction profiles of the Lipizzaner isolates as well as of the vaccine strain could be identified as being typical of abortigenic strains with minor variations. Such variations on the molecular biological level of the DNA do not justify characterization of the strains as neuro-variants. The vaccine strain differed from other isolates investigated with 4 restriction endonucleases (Bam HI, Bgl II, EcoRI, Kpn I) which was due to a deletion in the unique short segment of the genome. The lack of similar DNA bands in two EHV-1 viruses, causing mild respiratory disease, as well as in the vaccine strain Prevaccinol is suggestive of lowered virulence. In contrast to one Lipizzaner isolate tested (strain Austria IV) the Austrian vaccine strain proved to be of strong neurovirulence for suckling mice.

Molecular epidemiology and pathogenesis of some equine herpesvirus type 1 (equine abortion virus) and type 4 (equine rhinopneumonitis virus) isolates

Representative strains of EHV isolated from an aborted foetus and from a horse with rhinopneumonitis in New Zealand had restriction endonuclease DNA fingerprints typical of those usually associated with these syndromes elsewhere and now designated EHV1 and 4 respectively. EHV1 was isolated from the brain and spinal cord of a 4-year-old gelding that died of myeloencephalitis. A mare on the same farm, at about the same time as the gelding developed myeloencephalitis, aborted and EHV1 was isolated from the tissues of the aborted foetus. Restriction endonuclease DNA fingerprints of the viruses isolated from myeloencephalitis and abortion were indistinguishable by Bam HI but were distinguishable using Bgl I, Pvu II, Xho I and Hind III. The restriction endonuclease DNA fingerprints of 3 EHV1 strains known to cause myeloencephalitis were compared with each other and with EHV1 strains not known to be associated with myeloencephalitis. The Bgl I Pvu II and Hind III DNA fingerprints of the 3 myeloencephalogenic strains appear distinguishable from non-myeloencephalogenic strains. Abortion was induced in a mare by intrauterine inoculation of EHV4. The Bam HI, Bgl I, Pvu II, Xho I and Hind III restriction endonuclease DNA fingerprints of the inoculum virus were indistinguishable from virus recovered from the foetus. It was concluded that passage of the virus through the foetus did not detectably alter the restriction endonuclease DNA fingerprint.

Restriction endonuclease DNA fingerprinting of respiratory, foetal and perinatal foal isolates of equine herpesvirus type 1

DNA was prepared from 43 equine herpesvirus type 1 (EHV 1) isolates, 11 of which were from horses with respiratory disease, 22 from aborted equine foetuses, and 10 from foals that died perinatally. The restriction endonuclease DNA fingerprints of 10 of the 11 respiratory isolates, known with certainty to have been recovered from horses with respiratory disease, were entirely different from all but 3 of the 32 foetal or perinatal foal isolates. The exceptional respiratory isolate, EHV 1 Army 183, had a foetal (F) strain fingerprint but this virus cannot be said with certainty to have been isolated from the respiratory tract. The 3 exceptional foetal isolates, had respiratory (R) strain fingerprints, and were recovered from single sporadic abortions. There are no exceptions to the view that only R strains have been isolated from naturally occurring respiratory disease. Also it is clear that major epizootics of abortion (abortion storms) and of perinatal foal mortality are caused by F strains. The data together with an analysis of the epidemiological patterns, particularly in Australia, strongly support the view that F and R strains be regarded as separate species, EHV 1 and 4 respectively.