Isolation of two serotypes of equine adenovirus from horses in New Zealand

Molecular Detection of Equine Adenovirus 1 in Nasal Swabs from Horses in the Republic of Korea

Equine adenovirus 1 (EAdV-1) can cause upper respiratory disease in horses and has been reported worldwide. In this study, and for the first time in Korea, the prevalence of EAdV-1 in equine nasal swabs was investigated using a PCR to identify potential risk factors and examine the genetic diversity of its DNA sequences by a comparison with foreign strains. Nasal swabs collected from 359 horses reared at Korea Racing Authority facilities were tested using an EAdV-1 hexon-specific PCR and the associations between EAdV-1 infection and sex, age, region, breed, and activity were analyzed. Five samples (1.4%, 5/359) tested positive for EAdV-1; however, no statistically significant differences were observed with respect to any variable. Among the five EAdV-1-positive horses, a co-infection with equine influenza, equine herpesvirus 1 and 4, or Streptococcus equi was not detected; however, clinical respiratory signs were observed in one. Phylogenetic analyses based on partial EAdV-1 hexon gene sequences revealed that the Korean EAdV-1 isolates shared approximately 98.8–100% similarity among each other and with foreign strains. Three Korean isolates shared high similarity with strains from Australia and India and the remaining two isolates were separate in phylogenetic analyses. These findings highlight the molecular prevalence and genetic diversity of EAdV-1 in horses in Korea.

A cross-sectional study to identify a set of risk factors for caprine herpesvirus 1 infection

BACKGROUND

Caprine herpesvirus 1 (CpHV-1) causes neonatal mortality and reproductive failure in goats. Despite its impact on herd reproductive performance, few studies have investigated the risk factors associated with CpHV-1 infection. The aim of this cross-sectional study was to identify potential herd- and host-level risk factors associated with CpHV-1 prevalence in a goat population with heterogeneous seropositivity for CpHV-1.

RESULTS

Blood samples and individual data from 4542 goats were collected from 255 herds in Piedmont, Italy. Enzyme-linked immunosorbent assay (ELISA) and serum neutralization tests were carried out to detect antibodies against CpHV-1. A mixed-effects model was applied to identify any statistical association between CpHV-1 seropositivity and a set of putative host-level and herd-level risk factors. A total of 630 samples tested were found positive by ELISA (prevalence = 13.9%; 95% confidence interval (CI) 12.9-14.9). Of the 255 tested herds, 85 were classified as positive for the presence of at least one gB-positive animal (herd prevalence 33.3%, 95% CI 27.5-39.2), with a within-herd prevalence between 0.7 and 100% (Q1 = 17.6%; median = 32.3%; Q3 = 50%) (Q = quartiles). The prevalence ratios showed a statistical association with the following risk factors: breeds other than Saanen, older age, larger herd size, meat and extensive herds, and co-existence of CAEV-infected animals.

CONCLUSIONS

Results from this cross sectional study may help to elucidate the natural history of the infection and inform targeted strategies to control a disease with a potentially important impact on animal health and goat farming economy.

Molecular characterisation of Mycoplasma species isolated from the genital tract of Dorper sheep in South Africa

Biochemical and molecular analysis were conducted on 34 strains of Mycoplasma species isolated between 2003 and 2009 from the genital tract of clinically healthy Dorper sheep and sheep with ulcerative vulvitis and balanitis. Earlier publications identified the causative agent as Mycoplasma mycoides mycoides large colony (MmmLC) and Arcanobacterium pyogenes. The aims of the study were to characterise Mycoplasma species isolated from the genital tract of Dorper sheep with polymerase chain reaction assay, cloning and gene sequencing. Basic Local Alignment Search Tool (BLAST) results revealed six predominant Mycoplasma species: Mycoplasma arginini, Mycoplasma bovigenitalium, Arcanobacterium laidlawii, MmmLC, Mycoplasma sp. ovine/caprine serogroup II and M. canadense. Sequencing of the 34 isolates were analysed using phylogenetic methods, and 18 (50%) were identified as M. arginini with 99% - 100% similarity to M. arginini from England and Sweden. Six isolates showed 99% similarity to M. bovigenitalium strains from Turkey and Germany. Two isolates had 99% similarity to an M. sp. ovine/caprine sero group II from the United Kingdom. BLAST for two isolates revealed 99% similarity to Acholeplasma laidlawii from India, another two were 99% similar to MmmLC strain from Sweden, two showed 98% similarity to Mycoplasma sp. Usp 120 from Brazil, and two isolates have a 97% - 99% similarity to M. mm. Jcv1 strain from the United States of America. Finally, one isolate showed similarity of 99% to Mycoplasma canadense strain from Italy. The findings support the hypothesis that ulcerative vulvitis and balanitis of Dorper sheep in South Africa (SA) is a multifactorial disease with involvement of different Mycoplasma species.

Isolation and characterisation of cervine herpesvirus-1 from red deer semen

AIM

This communication describes the isolation of herpesvirus during routine export examination of semen collected from red deer stags in New Zealand.

METHODS

Virus isolation was carried out using bovine embryonic lung (BEL) cells and viruses were characterised by direct immunofluorescense, restriction-fragment-length polymorphism analysis (RFLP), polymerase chain reaction (PCR) analysis and nucleotide sequencing.

RESULTS

Herpesvirus was isolated from red deer semen on 2 different occasions from different animals. In both cases the virus was identified as cervine herpesvirus-1 (CvHV-1), based on RFLP, PCR and sequence analysis. Nucleotide sequence analysis of the glycoprotein-D gene showed 99.7% homology to the Banffshire strain of CvHV-1 and 89.5%, 89.2%, 85.3% and 79.6% homology to bovine herpesvirus 1.2 (BoHV-1.2), bovine herpesvirus 1.1 (BoHV-1.1), cervine herpesvirus-2 (CvHV-2) and caprine herpesvirus-1 (CpHV-1), respectively.

CONCLUSION

This is the first time that CvHV-1 has been isolated in New Zealand. Its inclusion in serological surveys will allow the prevalence of CvHV-1 in the red deer population to be assessed in this country. The clinical significance of CvHV1 infection in New Zealand red deer herds has yet to be determined.

Identification of equine herpesvirus 3 (equine coital exanthema virus), equine gammaherpesviruses 2 and 5, equine adenoviruses 1 and 2, equine arteritis virus and equine rhinitis A virus by polymerase chain reaction

OBJECTIVE

To develop rapid (< 8 hour) tests using polymerase chain reaction (PCR) for the diagnosis of equine herpesvirus 3 (EHV3; equine coital exanthema virus), equine gammaherpesviruses 2 (EHV2) and EHV5, equine adenovirus 1 (EAdV1), EAdV2, equine arteritis virus (EAV), equine rhinitis A virus (ERAV; formerly equine rhinovirus 1)

DESIGN

Either single round or second round (seminested) PCRs were developed and validated.

METHODS

Oligonucleotide primers were designed that were specific for each virus, PCR conditions were defined and the specificity and sensitivity of the assays were determined. The application of the tests was validated using a number of independent virus isolates for most of the viruses studied. The PCRs were applied directly to clinical samples where samples were available.

RESULTS

We developed a single round PCR for the diagnosis of EHV3, a seminested PCR for EHV2 and single round PCRs for EHV5, EAdV1, EAdV2 and RT-PCRs for EAV and ERAV. The PCR primer sets for each virus were designed and shown to be highly specific (did not amplify any recognised non-target template) and sensitive (detection of minimal amounts of virus) and, where multiple virus isolates were available all isolates were detected.

CONCLUSION

The development and validation of a comprehensive panel of PCR diagnostic tests, predominantly for viruses causing equine respiratory disease, that can be completed within 8 hours from receipt of clinical samples, provides a major advance in the rapid diagnosis or exclusion diagnosis of these endemic equine virus diseases in Australia.

Experimental intravaginal infection of goats with caprine herpesvirus 1

Three adult goats, seronegative to caprine herpesvirus 1 (CpHV.1), were intravaginally inoculated with BA.1 strain of CpHV.1. The animals were kept under observation for 1 month and daily both clinical examinations and white blood cell count were performed. Ocular, nasal, rectal and vaginal swabs and heparinized blood samples were collected every day to attempt virus isolation on cell cultures and detect viral DNA by polymerase chain reaction (PCR) assay. The virus was isolated and detected by PCR only from the vaginal swabs for 5-7 days post-infection. The animals showed transient fever and leukopenia and typical necrotic lesions on the vulva and vagina.

Sequence analysis of equine adenovirus 2 hexon and 23K proteinase genes indicates a phylogenetic origin distinct from equine adenovirus 1

We report the first nucleotide sequence data on equine adenovirus 2 (EAdV2) which corroborate on the molecular level that EAdV2 is distinct from equine adenovirus 1 (EAdV1). Based on sequence homology with Eadv1 the hexon gene of Eadv2 was identified. HindIII restriction fragments containing the hexon and eight other viral genes were cloned into the plasmid pUC19 and the nucleotide sequence of the hexon and the 23K proteinase genes completely determined. Amino acid (aa) comparison of sequence fragments with published adenovirus (AdV) proteins identified the genes for the E1B/19K, IVa2, DNA polymerase, terminal protein, pVI, DNA binding and 100K proteins, usually with highest similarities to human AdV. The nine EAdV2 genes appeared to be in the same relative order as homologous genes of other AdV. The EAdV2 hexon was encoded between the minor capsid precursor protein pVI upstream and the 23K proteinase gene downstream and comprised 2712 nucleotides which translated into 903 aa residues. It was more closely related to the human AdV48 hexon with 71.6% identical and 82.7% functionally similar aa than to the EAdV1 hexon gene with 69.3% aa identity and 80.7% functional similarity. The deduced aa sequence of the EAdV2 23K proteinase gene was 201 residues; it shared 59.7% identical and 75% similar aa residues with the bovine AdV3 23K proteinase as the closest relative. Phylogenetic analysis of the hexon and 23K proteinase genes indicated that EAdV2 does not share an immediate common ancestor with EAdV1 and other AdV.

Sexually transmitted diseases in animals: ecological and evolutionary implications

Sexually transmitted diseases (STDs) have been generally thought of as a small subset of infectious diseases, rather than as an important group of diseases that occur in numerous species. In this paper, we have (1) briefly reviewed theoretical studies on the dynamics of STDs; (2) documented the distribution of STDs in the animal kingdom; and (3) investigated whether STDs have characteristics which distinguish them from other infectious diseases. The dynamics of STDs should differ from those of ordinary infectious diseases because their transmission depends on the frequency rather than density of infectives. With this type of transmission, there is no threshold density for disease spread, and the conditions for host-pathogen coexistence are more restrictive. Nevertheless, a wide variety of disease characteristics may allow a sexually transmitted pathogen to coexist with its host. We found over 200 diseases for which there was evidence of sexual transmission. They occurred in groups as diverse as mammals, reptiles, arachnids, insects, molluscs and nematodes. Sexually transmitted pathogens included protozoans, fungi, nematodes, helminths, and cancerous cell lines, as well as bacteria and viruses. Detailed comparison of the characteristics of sexually transmitted mammalian diseases with those that are transmitted by non-sexual means, showed that STDs cause less mortality, are longer-lived in their hosts, are less likely to invoke strong immune responses, have narrower host-ranges, and show less fluctuation in prevalence over time. These shared features are related to mode of transmission rather than either host or pathogen taxonomic affiliation. This suggests an evolutionary explanation based on shared ecologies rather than one based on phylogenetic history.

Comparison of herpesviruses isolated from reindeer, goats, and cattle by restriction endonuclease analysis

A genomic comparison of bovine herpesvirus 1 (BHV-1), caprine herpesvirus (CHV-2) and reindeer herpesvirus (RHV), was performed using 5 restriction endonucleases. Cross neutralization of these three herpesviruses showed that BHV-1 and CHV-2 had a relatively low degree of cross reaction with heterologous viruses. RHV showed a higher degree of such cross reactivity. The restriction endonuclease analyses showed that the migration patterns of the DNA segments were different for the three groups of herpesviruses. The enteric caprine strain could be differentiated from genital strains using BstE II and Hpa I. The genome size of reindeer herpesvirus was estimated to be approximately 86.8 x 10(6) Da (131.8 kbp), and indications of isomerization of this genome were found. It is concluded that reindeer herpesvirus is a distinct species within the family Herpesviridae.

Genital pathology of feral male goats

Genitalia from 1000 feral male goats derived from western Queensland and New South Wales were examined after slaughter at an abattoir and the prevalence of abnormalities determined. Ulcerative balanoposthitis, considered due to caprine herpesvirus infection, was observed in 11 animals (1.1%); acidophilic intranuclear inclusions were found in 7 of these. Other conditions included focal hypoplasia of seminiferous tubules in 2 bucks (0.2%), segmental aplasia of the epididymis (one buck, 0.1%), bulbourethral gland cysts with contained aggregations (33 bucks, 3.3%) and haemangiosarcoma of the bulbourethral gland in one animal. The low prevalence of several conditions such as spermatic granuloma, cryptorchidism, and testicular hypoplasia, was attributed largely to the fact that the bucks examined were horned so that the recognised association between genital abnormalities and polledness did not apply.

A caprine pneumonia outbreak associated with caprine herpesvirus andPasteurella haemolyticarespiratory infections

In a field disease outbreak, 60 female goats died over a 2-3 week period. Necropsies of seven of these does revealed that six had an acute exudative necrotising broncho-pneumonia, and moderate to high numbers of Pasteurella haemolytica were isolated from their lungs. Caprine herpesvirus, identified as Bovid herpesvirus type 6, was isolated from the lungs of two of these does, including one with pneumonia, and from nasal swabs of in-contact goats. Clinical disease was only observed in does, and deaths began 3 weeks after the introduction of a mob of goat hoggets from another farm.

DNA restriction analysis of equine adenovirus serotype I

The three equine adenovirus strains isolated in different locations showed a similar cleavage pattern with HindIII and the DNA homology among the strains was confirmed by Southern blot hybridization. The three strains revealed differences in cleavage patterns with BamHI, EcoRI and PstI, suggesting the presence of DNA polymorphisms among equine adenoviruses.

Viruses associated with respiratory disease of horses in New Zealand: an update

Viruses causing or associated with respiratory disease in horses worldwide are reviewed. Results are presented from a serological survey of 121 New Zealand foals and horses that had been affected by respiratory disease, determining the prevalence of antibodies in this country to the major viruses associated with similar disease overseas. To date there is no evidence of equine influenza virus in New Zealand. Both equine herpesvirus type 1 and 2 have been frequently isolated and show high serological prevalences. Serological evidence of equine rhinovirus type 1 and type 2 is presented with a prevalence of 12.3% and 41.2% respectively observed in foal sera, and 37.7% and 84.9% in adult horse sera. Antibody reacting to equine viral arteritis virus antigen was detected in 3/121 test sera. Equine adenovirus has been isolated on occasions and has shown a 39% serological prevalence in one study reviewed. Progress in New Zealand equine virus research is discussed.

Vulvovaginitis of goats due to a herpesvirus

Two concurrent outbreaks of genital disease in goats were associated with infection by a herpesvirus that was isolated from vulval and vaginal lesions of affected does. Serum neutralising antibody to the virus was present both in goats with the clinical disease and some unaffected goats. Of 19 goat herds examined only 4 had serum neutralising antibody positive goats with low (5%) to high (60%) incidence of infection. The virus isolate was characterised as a herpesvirus on its physico-chemical and morphological features. It contained DNA and was inactivated at low pH and by treatment with lipid solvents and trypsin. The virus particles were icosahedral, consisting of a nucleocapsid surrounded by an envelope membrane and measured approximately 150 nm in diameter. The virus was serologically related to a New Zealand isolate of caprine herpesvirus (NZ-CpHV), associated with similar genital disease, and was distinct from bovine herpes virus-1 (BHV-1) showing a one way neutralisation pattern.

Molecular epidemiology and pathogenesis of ruminant herpesviruses including bovine, buffalo and caprine herpesviruses l and bovine encephalitis herpesvirus

Restriction endonuclease DNA fingerprints of herpesviruses isolated from 3 unrelated epidemics of bovine encephalitis are similar to each other and totally different from bovine herpesvirus 1 (BHV1). Herpesviruses, antigenically related to BHV1, isolated from goats and buffalo have distinct DNA fingerprints. We propose that bovine encephalitis herpesvirus is prototypic of a new bovine herpesvirus type and that alpha herpes viruses from individual ruminant species are species specific.