Seroprevalence of viral and vector-borne bacterial pathogens in domestic dogs (Canis familiaris) in northern Botswana.

BACKGROUND: Domestic dogs (Canis familiaris) have the potential to act as disease reservoirs for wildlife and are important sentinels for common circulating pathogens. Therefore, the infectious disease seroprevalence among domestic dogs in northern Botswana may be indicative of pathogen exposure of various wildlife species. The objective of this study was to assess the seroprevalence of Ehrlichia spp., Borrelia burgdorferi, Anaplasma spp., Dirofilaria immitis, canine adenovirus, canine parvovirus, and canine distemper virus in domestic dogs as proxies of disease prevalence in the local wildlife in the Okavango Delta region of Botswana. Statistical analysis assessed crude and factor-specific seroprevalence proportions in relation to age, sex, and geographical location as predictors of seropositivity. Logistic regression was used to identify adjusted predictors of seropositivity for each of the pathogens of interest. RESULTS: Samples from 233 dogs in a total of seven locations in Maun, Botswana, and surrounding villages were collected and serologically analyzed. No dogs were seropositive for B. burgdorferi, while low seroprevalence proportions were observed for Anaplasma spp. (2.2%) and D. immitis (0.9%). Higher seroprevalence proportions were observed for the tick-borne pathogen Ehrlichia spp. (21.0%), and 19.7% were seropositive for canine adenovirus (hepatitis). The highest seroprevalence proportions were for canine parvovirus (70.0%) and canine distemper virus (44.8%). The predictors of seropositivity revealed that adults were more likely to be seropositive for canine adenovirus, canine distemper virus, and canine parvovirus than juveniles, and location was a risk factor for canine adenovirus, canine distemper virus, canine parvovirus, and Ehrlichia spp. CONCLUSIONS: Results indicate that increasing tick control and vaccination campaigns for domestic dogs may improve the health of domestic animals, and potentially wildlife and humans in the Okavango Delta since viral and vector-borne bacterial pathogens can be transmitted between them.

Canine distemper virus infection with secondary Bordetella bronchiseptica pneumonia in dogs

Canine distemper virus infection and secondary Bordetella bronchiseptica pneumonia are described in mongrel dogs. Canine distemper was characterised by nonsuppurative demyelinating encephalitis with typical inclusion bodies in astrocytes. B. bronchiseptica was isolated from areas of purulent bronchopneumonia.

The biological characterization of field isolates of canine distemper virus from Japan.

Eight isolates of canine distemper virus (CDV) were obtained from seven dogs suffering from distemper by co-cultivation of their mononuclear cells with a marmoset B lymphoblastoid cell line, B95a. Six of the seven dogs had received one or more vaccinations. All of the isolates readily proliferated in B95a cells, but were not completely neutralized by anti-CDV canine plasma, which had high neutralizing activity against the Onderstepoort laboratory strain of CDV. Furthermore, different reactivities of monoclonal antibodies (MAbs) against CDV were observed between the field isolates and laboratory or vaccine strains of CDV in immunofluorescence studies. Immunoprecipitation analysis using MAbs detected the haemagglutinin protein of each new field isolate as 69K, 75K and 155K forms, and the fusion protein as 64K and 65K forms; the corresponding proteins of the Onderstepoort strain were detected as 75K and 61K proteins respectively. It is apparent from these results that the new field isolates of CDV have very different antigenic properties from the Onderstepoort vaccine strain.

Dogs, distemper and Paget's disease.

The cause of Paget's disease is still unknown, despite many years of intensive study. During this time, evidence has sporadically emerged to suggest that the disease may result from a slow viral infection by one or more of the Paramyxoviruses. More recently, epidemiologic and molecular studies have suggested that the canine paramyxovirus, canine distemper virus, is the virus responsible for the disease. If true, then along with rabies, this would be a further example of a canine virus causing human disease. Studies in the natural host have now supported these findings. Further investigations have proposed that the bony abnormalities seen in Paget's disease are due to the effects of the virus on osteoclastic interleukin-6 and c-FOS production, possibly via the transcription factor NF-kappa B.

Use of B95a cells for isolation of canine distemper virus from clinical cases.

Canine distemper virus (CDV) was readily isolated at high rate with marked cytopathic effect (CPE) in B95a cells, a marmoset lymphoid cell line, from the peripheral blood leukocytes, cerebrospinal fluid cells and brain of dogs. Difference in type of CPE, i.e. syncytium type and round-cell one, among the virus isolates indicate the presence of heterogeneity of virus populations in prevalent CDV. Thus, this cell system is expected to be useful for ecological studies on CDV in the field.

Studies on manifestations of canine distemper virus infection in an urban dog population.

An upsurge of canine distemper was recognized at the beginning of 1991 in the urban dog population of the Copenhagen area. The outbreak had the characteristics of a virulent morbillivirus introduction in a partly immune population, where the disease primarily was manifested in young individuals. Testing of single serum samples for the presence of canine distemper virus (CDV) IgM antibodies using an IgM ELISA confirmed current and recent CDV infections in an urban dog population, where the use of attenuated CDV vaccines was widespread. In 49 out of 66 sera from clinical cases suspected of canine distemper we detected CDV IgM antibodies, as compared to the detection of viral antigen by indirect immunofluorescence in 27 of 65 specimens of conjunctival cells. The antigenic make-up of isolates from acute and subacute clinical cases was investigated with a panel of 51 monoclonal antibodies directed against CDV and the related phocine distemper virus. The isolates exhibited an homogeneous reaction pattern and shared overall antigenic characteristics of the CDV prototype. The majority of cases were diagnosed among unvaccinated dogs and individuals with unknown or obscure vaccination record. However, severe clinical cases were also diagnosed in vaccinated individuals.

In situ hybridization of virulent canine distemper virus in brain tissue, using digoxigenin-labeled probes.

Only a few hybridization experiments have been performed for detection of canine distemper virus (CDV) nucleic acid sequences in tissue cultures and in various tissues. Those published studies used probes derived from tissue culture-adapted CDV, and hybridization signals were not obtained in the CNS tissue, although infective CDV and viral antigen were detectable in this tissue. We developed probes complementary to virulent CDV and were able to detect viral RNA not only in primary brain cell cultures, but also in brain tissues, by use of in situ hybridization. Sensitivity of the test at least equaled that of immunohistochemistry. We applied digoxigenin-labeled, strand-specific RNA probes complementary to the nucleoprotein-coding viral nucleic acid sequence. Our results indicate that to detect CDV nucleic acid sequences in brain tissues, it is essential to use probes derived from the virulent virus.

Canine distemper virus transcripts detected in the bone cells of dogs with metaphyseal osteopathy.

Using the technique of in situ hybridisation, we have recently extended our observations that canine distemper virus (CDV) is present in the bone cells of patients with Paget's disease, and have shown that CDV is also detectable in the bone cells of dogs that are naturally infected with the virus. Since hybridisation was localised to bone cells within the metaphyses of the affected dogs, we investigated the possibility that CDV might be involved in the canine metaphyseal bone disorder, metaphyseal osteopathy. Bone samples from three cases of metaphyseal osteopathy were examined for the presence of the CDV nucleocapsid (CDV-N) gene and the measles virus nucleocapsid (MV-N) gene, using 35S-labelled sense and antisense riboprobes. As with our previous findings in Paget's disease of bone, only the antisense probe was found to hybridize to the osteoblasts and osteoclasts within the affected metaphyses. No hybridisation was seen with the CDV-N sense and MV-N probes in any of the samples tested. Bone samples were also taken from one of the cases to check for the presence of the CDV-N gene using the polymerase chain reaction (PCR). Our findings with in situ hybridisation were confirmed by PCR and subsequent Southern blotting and probing with a 32P-labelled cDNA probe. The detection of CDV RNA within the bone cells of dogs with metaphyseal osteopathy suggests that this virus may be a cause of the disease and provides further, indirect evidence that CDV might be responsible for the bony abnormalities seen in Paget's disease of bone.

Infection studies with canine distemper virus in harbour seals.

Infection studies in harbour seal (Phoca vitulina) were conducted with the Snyder-Hill strain of canine distemper virus (CDV) that is virulent for dog and mink. The inoculated seals showed clinical symptoms which were to some degree similar to those observed in CDV infections of sensitive species of carnivores. Viral replication in lymphoid cells was followed by an extended period of immunosuppression. The results did not provide conclusive evidence for viral replication in surface epithelia of seals, and accordingly no spread of the infection to contact seals and mink was demonstrated. The pathogenicity of the infection did not increase upon a second viral passage in seal. The serological data showed that CDV-infected seals mounted an early virus specific antibody response. Overall, the results indicated that the harbour seal was not especially sensitive to CDV infection. The differences in the in vivo biological properties of CDV and PDV add to the distinction between these viruses at the genomic and antigenic levels.

Biological properties of phocine distemper virus and canine distemper virus.

Morbilliviruses constitute a major threat to the health of animal and man. To date the Morbillivirus genus in the Paramyxoviridae family comprises five established members, namely canine distemper virus (CDV), phocine distemper virus (PDV), measles virus (MV), rinderpest virus (RPV), and peste-des-petits-ruminants virus (PPRV). In addition, morbillivirus candidates infecting aquatic mammals were recently discovered. The present review on the biology of morbilliviruses focuses on knowledge gained by our group in studies on PDV and CDV. The aims of these studies were: i) to investigate the biological properties of the recently recognized PDV, which was found to be the primary etiology of epidemics with high mortality in seals in Western Europe, ii) to extend our knowledge of the biological properties of CDV. The morbillivirus particle is enveloped. The helical nucleocapsid core contains a single-stranded, non-segmented RNA genome of negative sense of 15 to 16 kilobases in length. The genome is organized in six transcriptional units or genes. Overall, the studies of the genome of PDV revealed a genetic map principally fitting with that determined for other morbilliviruses. The nucleotide and deduced amino acid sequences have been determined for five PDV genes named in analogy with the encoded structural proteins of other morbilliviruses in the order: 3'N(1683)-P(1644)-M(1443)-F(2206)-H(1952)-L5' (The figures in brackets denote nucleotide lengths of the genes of the Danish PDV isolate). The L gene (covering approximately 8900 nucleotides) remains to be sequenced. The six genes are likely to code for at least eight distinct proteins. The nucleocapsid (N) protein was found to consist of 523 amino acids in PDV. The following gene of the transcription map encoded the P protein of 507 amino acid residues. Similar to other morbilliviruses, the P gene of PDV was shown to have additional coding capacity for two distinct proteins V (299 amino acids) and C (174 amino acids). The results presented provide evidence for editing at transcript of the PDV P gene by insertion of nontemplated G residues at a specific site. The edited version of the mRNA was found to encode the cystein-rich V protein. The three envelope-associated proteins of PDV were predicted to consist of 335 (M), 537 (F0) and 607 (H) amino acid residues. The nucleotide and deduced amino acid sequences of the N, P, M, F, and H genes of PDV were aligned with corresponding sequences of other established members of the genus Morbillivirus.(ABSTRACT TRUNCATED AT 250 WORDS)

Canine distemper virus infection in a masked palm civet (Paguma larvata).

A free-living masked palm civet (Paguma larvata) died after exhibiting signs of canine distemper (CD). The microscopic lesions consisted of cytoplasmic and intranuclear eosinophilic inclusion bodies, bronchointerstitial pneumonia, non-purulent encephalitis accompanied by demyelination and lymphocytic depletion in various lymphoid tissues. CD virus-specific antigens were demonstrated immunohistochemically in intracellular eosinophilic inclusions, which were ultrastructurally confirmed to be viral nucleocapsids. From these findings, the present case was diagnosed as CD virus infection in a masked palm civet.

Dog lymphocyte cultures facilitate the isolation and growth of virulent canine distemper virus.

Optimal conditions for the isolation and growth of virulent canine distemper virus (CDV) in canine thymic and peripheral blood lymphocyte cultures were determined. Peak virus titers were seen from 3 to 6 days postinoculation of lymphocytes and depended on the multiplicity of infection. Dog lymphocytes were at least as susceptible as canine macrophages to infection with virulent CDV. Virus replication in lymphocytes resulted in higher virus titers than in dog lung macrophages. Peripheral blood lymphocytes (PBL) from CDV-immune dogs were as susceptible to CDV as were PBL from susceptible dogs.

Detection of canine distemper virus in bone cells in the metaphyses of distemper-infected dogs.

In the light of recent evidence implicating canine distemper virus (CDV) as a possible etiologic agent in Paget's disease of bone, we thought that it would be of interest to examine distemper-infected bone in the natural host. Samples from the long bones, spleen, and bladder of four distemper-infected and three uninfected dogs were examined for the presence of CDV nucleocapsid and phosphoprotein genes and the measles virus (MV) nucleocapsid gene using the technique of in situ hybridization with radioactively labeled riboprobes. Two of the four distemper-infected dogs showed strongly positive hybridization with both of the CDV probes. The signal was present in marrow cells, in osteoblasts, in osteocytes, and particularly in osteoclasts. No hybridization was seen over the cartilage cells of the growth plate, and there was a clear line of demarcation at the point of invasion of osteoclasts and vascularization. The spleen and bladder samples from infected dogs also showed positive hybridization. There was no hybridization with the MV probe in any of the distemper-infected tissue. Samples from the uninfected dogs showed no evidence of hybridization with either the CDV or MV probes. These results show that CDV can infect bone cells of the natural host and provide further support for the theory that CDV may play a role in human Paget's disease of bone.

Molecular and serological studies on the recent seal virus epizootics in Europe and Siberia.

The virus epizootics which occurred in seals in both Europe and Siberia during 1987/1988 were caused by two different morbilliviruses, referred to as phocid distemper virus (PDV) 1 and 2, respectively. Molecular and serological studies have shown that the European virus is quite distinct from canine distemper virus (CDV), its closest relative in the morbillivirus group. Analysis of tissues obtained from infected seals from a wide geographical distribution over Northern Europe showed that the infectious agent (PDV 1) was identical in all cases. Nucleotide sequence analysis of one of the virus genes suggested that this virus has evolved away from CDV over a long time period and is most probably an enzootic virus of marine mammals. In contrast, the virus (PDV 2) which caused the deaths of many Siberian seals was indistinguishable, both serologically and at the molecular level, from CDV and must have originated from a land source.

Phocine distemper virus, the agent responsible for the 1988 mass mortality of seals.

The biochemical characterisation of phocine distemper virus (PDV) has shown that PDV is related to but clearly distinct from canine distemper virus (CDV) and relative to its relationship with CDV is only remotely related to the other morbilliviruses, namely measles virus (MV) or rinderpest virus (RPV) and peste-des-petits-ruminants virus (PPRV). Comparative studies with monoclonal antibodies indicate that the virus is serologically closely related to CDV with many conserved epitopes, particularly on the internal proteins of the virus, while the external attachment (H) protein shows the greatest level of variability among the distemper virus isolates. The analysis of the viral proteins by electrophoresis indicates molecular weight differences between CDV and PDV in the fusion (F), phosphoprotein (P), H, nucleocapsid (N) and matrix (M) proteins. The RNA profiles of CDV and PDV are indistinguishable and different from those for RPV and MV. Nucleotide sequence analysis of cDNA clones of the virus show approximately 70% homology between CDV and PDV and approximately 48% with MV. These data prove that PDV is a different virus from CDV and co-circulates with it probably primarily in sea mammals.