Epitope analysis of capsid and matrix proteins of North American ovine lentivirus field isolates

Development of enzyme-linked immunosorbent assay for detection of antibody against Caprine arthritis encephalitis virus using recombinant protein of the precursor of the major core protein, p55gag

An indirect enzyme-linked immunosorbent assay (ELISA) by using recombinant Caprine arthritis encephalitis virus (CAEV) p55gag antigen (rELISA), an indirect ELISA by using whole CAEV (wELISA), and Western blot analysis by using the recombinant p55gag antigen (rWB) were developed for detection of CAEV-specific antibodies in goats. Seven hundred and forty-five sera from goats were tested by rELISA, wELISA, rWB, and agar gel immunodiffusion test (AGID), and the results were compared with those of WB analysis by using the whole CAEV antigen (wWB). The AGID test and rWB had similar sensitivities of 93.3% (95% confidence interval [CI]) and 93% (95% CI), respectively, and similar specificities of 96.0% (95% CI) and 96.3% (95% CI), respectively, compared with wWB. The wELISA had substantially lower sensitivity (80.4%) and specificity (78.0%) compared with wWB, and rELISA had the lowest sensitivity (78.2%) and specificity (61.1%) compared with wWB. The lack of adequate sensitivity and specificity for rELISA and wELISA suggests that these assays need considerable modification. However, the results for rWB show that this assay has excellent agreement with wWB and that it can be used as a confirmatory test for the presence of anti-CAEV antibodies.

Ovine progressive pneumonia virus capsid antigen as found in CD163- and CD172a-positive alveolar macrophages of persistently infected sheep

In situ detection of ovine progressive pneumonia virus (OPPV) and the phenotypic identification of the cells that harbor OPPV have not been described for the OPPV-affected tissues, which include lung, mammary gland, synovial membranes of the carpal joint, and choroid plexus of the brain. In this study, the authors first developed a single enzyme-based automated immunohistochemical (IHC) analysis for detection of OPPV capsid antigen (CA) on OPPV-affected tissues, using 2 anti-CAEV CA monoclonal antibodies, 5A1 and 10A1, and 2 enzyme-based IHC systems. Out of 10 naturally and persistently OPPV-infected ewes, OPPV CA was detected in intercellular regions of the carpal synovial membrane of 1 ewe, in cells resembling alveolar macrophages and pulmonary interstitial macrophages in lung tissue of 3 ewes, and in mammary alveolar cells of 1 ewe. Furthermore, dual enzyme-based automated IHC analyses revealed that OPPV CA was predominantly detected in CD172a- or CD163-positive alveolar macrophages of the lungs and mammary gland. That anti-inflammatory (CD163) and downregulatory (CD172a) types of alveolar macrophage harbor OPPV CA leads to the possibility that during persistent infection with OPPV, the host alveolar macrophage might serve to limit inflammation while OPPV persists undetected by the host adaptive immune response in the lung and mammary gland.

Ovine lentivirus-associated leucomyelitis in naturally infected North American sheep

Leucomyelitis was the predominant feature in four North American adult sheep (cases 1-4) with ovine lentivirus (OvLV) infection. All four animals were OvLV-seropositive and a syncytogenic virus consistent with OvLV was isolated from the brain of case 3 and the lungs of case 4. Clinically, the sheep had dyspnoea and neurologic signs of varying severity. Changes in the central nervous system included asymmetrical meningoleucomyelitis with white matter degeneration in all four sheep and scattered foci of leucoencephalitis in periventricular, subependymal and other white matter areas of the brain of the three animals (cases 1, 2 and 4) for which the brain was examined. In the lungs of two sheep (cases 3 and 4), there was lymphoid interstitial pneumonia with marked lymphoid hyperplasia. The viral capsid antigen (p25) was detected by immunohistochemistry (IHC) in sections of lung, brain and spinal cord of the four sheep and OvLV RNA was detected by in-situ hybridization (ISH) in lung and spinal cord samples. The results confirm the usefulness of the IHC and ISH for differential diagnosis of visna.

Inhibition of nitric oxide enhances ovine lentivirus replication in monocyte-derived macrophages

Ovine lentivirus (OvLV) also known as maedi-visna virus, infects and replicates primarily in macrophages. This investigation examined the role of nitric oxide in the replication of OvLV in cultured macrophages. Peripheral blood mononuclear cells were collected from OvLV-free sheep and cultured in Teflon coated flasks at a high concentration of lamb serum. The cells were subsequently infected with OvLV strain 85/34. OvLV replication was assessed under different experimental treatments by comparison of reverse transcriptase (RT) activity in culture supernatant. Cultures that were treated with exogenous nitric oxide via S-nitroso-acetylpenicillamine did not have altered levels of RT activity compared to cultures treated with the inactive control compound, acetylpenicillamine. However, blockage of nitric oxide production by treatment with aminoguanidine, a competitive inhibitor of inducible nitric oxide synthase (iNOS), led to a significant rise in RT activity. This rise in RT activity was partially reversed in aminoguanidine treated cultures by L-arginine, the normal substrate for iNOS. Finally, the number of viral antigen producing cells was also quantified after aminoguanidine treatment and found to be significantly higher than untreated cultures. Collectively, these results indicate that nitric oxide is a negative regulator of OvLV replication in macrophages.

Ovine lentivirus is aetiologically associated with chronic respiratory disease of sheep on the Laikipia Plateau in Kenya

A study was undertaken to investigate the occurrence of ovine lentivirus (OvLV) infection in sheep with chronic respiratory disease on the Laikipia Plateau, Kenya. All seven Merino crossbred sheep with chronic dyspnoea and emaciation examined for gross and microscopic lesions had lymphoid interstitial pneumonia (LIP), and one also had pulmonary abscesses. Two of the sheep with LIP also had lesions of ovine pulmonary carcinoma (OPC, jaagsiekte). Using in situ hybridization, OvLV DNA localized to a high proportion of pulmonary macrophages in lungs with lesions of LIP. Lung tissue samples from six of these sheep were positive for a syncytium-inducing virus in cultures of lamb testis cells. Thin-section electron microscopy of infected cells showed virions with morphogenesis typical of lentiviruses. In a western blotting assay, monoclonal antibodies to the OvLV capsid (CA, p27) and matrix (MA, p15) proteins of a North American OvLV isolate reacted with similar-sized bands of the virus, and serum from six of the sheep were reactive with CA from the Kenyan viral isolate. Using an OvLV agar gel immunodiffusion (AGID) test, all seven sheep were positive for serum antiviral antibody, as were 29% of 63 clinically normal sheep from Laikipia District. However, when sera from the healthy sheep were tested in a western blot assay, only 52% had IgG reactive to the OvLV CA, indicating a high rate of false negative reactions with the AGID test. Serum samples from 87 Red Maasai or Dorper crossbred sheep from two farms in other parts of Kenya were OvLV seronegative by both the AGID test and the western blot assay. These results document the first identification of OvLV as a cause of chronic respiratory disease in sheep in Kenya and show a high rate of infection in sheep flocks, with a high prevalence of chronic respiratory disease.

Maedi-visna virus and caprine arthritis-encephalitis virus: distinct species or quasispecies and its implications for laboratory diagnosis

The lentiviruses responsible for causing maedi-visna or ovine progressive pneumonia in sheep and caprine arthritis-encephalitis in goats have long been considered distinct, albeit related, viral species. Evidence, primarily in the form of nucleic acid sequence data, suggests this distinction may not be as absolute as once thought. These lentiviruses might better be viewed in the context of viral quasispecies whose individual members exhibit varying host range and pathogenic capabilities. Implications for diagnostic testing and control of these diseases are discussed.

Envelope glycoprotein nucleotide sequence and genetic characterization of North American ovine lentiviruses

Ovine lentiviruses (OvLV) resemble human immunodeficiency viruses in genomic organization, viral heterogeneity, and spectrum of cytophenotypic expression. To gain a better understanding of the relationship of North American OvLV isolates with other characterized OvLV strains, the complete DNA nucleotide sequence of the env region of a highly lytic (rapid/high) OvLV strain (85/34) was determined and compared with the sequence of amplicons within env of three other OvLV strains of varying cytophenotype and isolated from the same flock of sheep. LTR and pol regions also were compared among these strains. The env region of 85/34 was 986 codons in length and the reported nucleotide sequence showed features shared by other OvLV including heavy glycosylation and conserved and hypervariable regions within the surface membrane protein region. Phylogenetic analyses of regions within LTR, reverse transcriptase, and env grouped the four virus strains together and similar to the maedi-visna OvLV strains, including visna virus, South African ovine maedi visna virus, and EV1 (British OvLV isolate), but they were distinct from caprine arthritis encephalitis virus.

Maedi-Visna and ovine progressive pneumonia

Maedi-Visna and ovine progressive pneumonia are disease of sheep that are caused by ovine lentivirus and characterized by chronic inflammation of the lungs, mammary glands, joints, and central nervous system. Although tremendous progress in research has led to a better understanding of the pathogenesis of these diseases, many questions still remain. Much of the mystery is the result of the complexity of the ovine lentivirus genome and the intricate interactions of the virus with the host during replication. Discoveries in molecular virology are shedding light on these interactions and novel approaches to prevent and control lentivirus infections are being explored. There is hope that some of these approaches will eventually be used to eradicate these diseases.

Ovine lentivirus expression and disease. Virus replication, but not entry, is restricted to macrophages of specific tissues

To better define the relationship between lentivirus infection and lymphoproliferative or inflammatory disease, we studied postmortem specimens of 38 sheep naturally infected with ovine lentivirus (OvLV) and with different clinical manifestations of OvLV-associated disease. Immunohistochemistry, in situ hybridization, and virus isolation were used to localize viral protein, viral RNA, and infectious virus to specific cells and tissues. Viral protein or infectious virus was found in cells morphologically and histochemically compatible with macrophages (M phi s), but only in lung, bone marrow, mammary gland, lymph node, spleen, synovium, brain, and spinal cord, frequently in association with lymphocyte infiltrates. In contrast, viral RNA was found in a variety of cell types, including epithelium, M phi s, and M phi-like cells, and in a wider range of tissues, with or without OvLV-associated lesions. In summary, these findings suggest that in vivo: 1), OvLV can enter a variety of cell types, 2), productive infection is restricted to cells of M phi lineage, and 3), cells expressing viral proteins are limited to specific tissues, those associated with OvLV-induced diseases.

Effect of selected cytokines on the replication of Corynebacterium pseudotuberculosis and ovine lentiviruses in pulmonary macrophages

Opportunistic bacterial pathogens that induce monokine secretion by pulmonary alveolar macrophages (PAM) are frequently encountered complicating factors in lentivirus-associated pneumonias in ungulates and man. We examined the effect of selected cytokines on the replication of Corynebacterium pseudotuberculosis and ovine lentivirus (OvLV) in ovine PAM. Recombinant bovine (rBo) IL 1 beta, rBoIL-2, rBo interferon-gamma (IFN gamma) and rBoTNF alpha, alone and in combination at physiological doses had no apparent effect on the extracellular growth of C. pseudotuberculosis, compared with the growth of the pathogen in medium alone. Untreated ovine PAM, derived from bronchoalveolar lavage, were found to substantially reduce, but not eliminate the growth of C. pseudotuberculosis in culture. This bactericidal effect was neither enhanced nor inhibited by pretreatment of PAM with the recombinant bovine cytokines or low doses of LPS that induce monokines. In contrast, addition of rBoTNF alpha or rBoIL-1 beta, at physiological doses, at the initiation of, or on Day 4, after OvLV infection resulted in a significant increase in viral replication in PAM, as measured in an antigen capture assay for OvLV p25, compared with untreated infected cells. This effect was more pronounced with lower levels of infecting OvLV, and, in the case of TNF alpha, was abrogated by preincubation of the cytokine with specific anti-serum. Conversely, in most instances, inclusion of rBoIFN alpha in OvLV-infected PAM cultures resulted in a significant decrease in viral replication. These results suggest that these soluble mediators that are probably secreted in response to C. pseudotuberculosis infection may have little direct effect on the extra- or intracellular survival of the bacteria in the lung, but may modulate lentiviral replication and, by extension, disease expression, in sheep with dual infection.

Host-virus interaction as defined by amplification of viral DNA and serology in lentivirus-infected sheep

To correlate the presence of ovine lentivirus (OvLV) as detected by polymerase chain reaction (PCR) with detection of antibody, 42 sheep from a flock with enzootic OvLV infection were studied. The results of agar gel immunodiffusion (AGID), ELISA, and immunoblotting assays were compared, and leukocytes (blood, bone marrow, lymph node, and lung cells) were assessed for viral DNA by PCR using pol and LTR primers; amplified products were detected by specific DNA and RNA probes. Based on the number of animals that had detectable viral DNA, the specificities of AGID, ELISA, and immunoblotting were 77%, 92%, and 95 or 100% (depending on which criterion was used to interpret immunoblot results), respectively. Only in animals with OvLV-associated disease was OvLV DNA detected in leukocyte DNA prior to the amplification of virus in culture and only in this group was high titer antibody detected to the OvLV major surface (gp 105) and transmembrane (gp 55) antigens. Animals that were both antibody and PCR-negative lacked histopathologic evidence of disease. From this study there was no indication that OvLV infection without the development of antibody occurs, and detection of OvLV DNA in animals with weak or partial serological reactions likely indicates early OvLV infection rather than false-positive PCR results.

Analysis of ovine lentivirus infectivity and replication by using a focal immunoassay and an antigen-capture enzyme-linked immunosorbent assay

A focal immunoassay and an antigen-capture enzyme-linked immunosorbent assay (antigen-capture ELISA) were developed to quantify infectious ovine lentivirus (OvLV) and OvLV capsid protein (CA) (p27), respectively. The in vitro kinetics of replication and cytopathogenicity of distinct biological clones of OvLV (rapid/high and slow/low phenotypic variants) were assessed. Both viruses were detected by focal immunoassay within 48 h postinfection, 2 days before syncytia were observed in goat synovial membrane cells infected with rapid/high OvLV and 4 days before they appeared in cultures infected with slow/low OvLV. CA was first detected by antigen-capture ELISA in supernatants of cells infected with rapid/high OvLV 4 days postinfection, and it reached a plateau by 10 days, 4 days after peak syncytium formation. In contrast, in cultures infected at the same multiplicity of infection with slow/low OvLV, CA was detected 8 days postinfection, and the titer gradually increased over the following 12 days while the number of syncytia gradually decreased. Peripheral blood mononuclear cells (PBMC) from seropositive sheep treated with phorbol 12-myristate 13-acetate (PMA) generally expressed CA earlier and at higher levels than PBMC treated with either phytohemagglutinin or concanavalin A. Serum CA levels above 3 ng/ml were found in 58% (18 of 31) of seropositive sheep. However, there was no correlation between PMA-induced CA expression and levels of antigenemia. Viral heterogeneity may account for variations both in CA expression in cultures of PBMC and in antigenemia, humoral immune response, and viral pathogenicity in infected animals.

Detection of antibodies to ovine lentivirus using a recombinant antigen derived from the env gene

The Western blot assay was performed to characterize antibodies to the transmembrane glycoprotein (TGP) of ovine progressive pneumonia virus (OPPV) by using glutathione-S-transferase-TGP (GST-TGP) protein. The GST-TGP protein was efficiently expressed in Escherichia coli (E. coli) and was highly immunoreactive in the Western blot assay. This assay detected antibodies in 97% (103/106) of the sera from agarose gel immunodiffusion (AGID) positive OPP animals. Like human AIDS patients, antibodies to TGP appear to be one of the major serological markers in OPP infected animals.