Neuropathological changes correlate temporally but not spatially with selected neuromodulatory responses in natural scrapie.

AIM: Neuropathological changes classically associated with sheep scrapie do not always correlate with clinical disease. We aimed to determine if selected neuromodulatory responses were altered during the course of the infection as it has been described in Creutzfeldt-Jakob disease and experimental bovine spongiform encephalopathy. METHODS: Hemi-brains from healthy sheep and natural scrapie cases at two stages of infection were examined for biochemical alterations related to the expression of type I metabotropic glutamatergic receptors (mGluR(1) ) and type I adenosine receptors I (A(1) R), and of selected downstream intermediate signalling targets. Immunohistochemistry for different scrapie-related neuropathological changes was performed in the contralateral hemi-brains. RESULTS: PrP(d) deposition, spongiform change, astrocytosis and parvalbumin expression were significantly altered in brains from clinically affected sheep compared with preclinical cases and negative controls; the latter also showed significantly higher immunoreactivity for synaptophysin than clinical cases. Between clinically affected and healthy sheep, no differences were found in the protein levels of mGluR(1) , while phospholipase Cß1 expression in terminally ill sheep was increased in some brain areas but decreased in others. Adenyl cyclase 1 and A(1) R levels were significantly lower in various brain areas of affected sheep. No abnormal biochemical expression levels of these markers were found in preclinically infected sheep. CONCLUSIONS: These findings point towards an involvement of mGluR(1) and A(1) R downstream pathways in natural scrapie. While classical prion disease lesions and neuromodulatory responses converge in some affected regions, they do not do so in others suggesting that there are independent regulatory factors for distinct degenerative and neuroprotective responses.

Tick-borne flavivirus NS1 gene: identification of conserved peptides and antigenic analysis of recombinant louping ill virus NS1 protein.

The nucleotide sequence of the NS1 gene of louping ill (LI) virus has been determined. The sequence shows a high degree of homology with other members of the tick-borne serocomplex of flaviviruses and a lower homology with the mosquito-borne flaviviruses. Alignment of the deduced NS1 amino acid sequences with all tick-borne flavivirus NS1 sequences, identified four peptide regions which were conserved for all tick-borne flaviviruses, but were variable amongst mosquito-borne flaviviruses. A dendrogram, derived from the alignment of the NS1 protein sequences, indicated an evolutionary relationship that quite closely reflects the recognised serological classification. The LI virus NS1 protein expressed in Escherichia coli and baculoviruses showed similar antigenic reactivity to the authentic virus-coded protein when tested with NS1-specific monoclonal antibodies, but did not form high molecular weight complexes and was not secreted from cells.

Louping ill virus envelope protein expressed by recombinant baculovirus and vaccinia virus fails to stimulate protective immunity.

We have constructed recombinant baculoviruses and vaccinia viruses containing cloned DNA, encoding either the envelope protein alone or all of the structural proteins (core, membrane and envelope) of louping ill virus. Glycosylated viral envelope protein, presented both inside and on the surface of insect and mammalian cells, was expressed by all four recombinant viruses. Differences in antigenic presentation of the envelope protein were observed between the envelope protein and structural protein constructs as well as between the insect and mammalian cell expression systems. Despite the expression of epitopes known to elicit neutralizing and protective antibodies when present in authentic antigen, the recombinant envelope protein expressed by either vector failed to induce, in mice or rabbits, either neutralizing or protective antibodies against louping ill virus.

Classification of a new member of the TBE flavivirus subgroup by its immunological, pathogenetic and molecular characteristics: identification of subgroup-specific pentapeptides.

The antigenic, pathogenic and molecular characteristics of Turkish sheep encephalitis (TSE) virus, strain TTE80, were compared with other members of the tick-borne encephalitis (TBE) virus complex. Monoclonal antibodies with defined specificity for the flavivirus envelope glycoprotein distinguished TSE virus from louping ill (LI), western or far eastern TBE, Langat and Powassan virus in indirect immunofluorescence, haemagglutination-inhibition and neutralization tests. On the other hand, TSE virus, which produces an LI-like disease in sheep, resembled LI virus in mouse neurovirulence tests. Molecular homology data of all the structural genes of TSE virus compared with other tick-borne flaviviruses demonstrated that TSE virus is a distinct member in the TBE virus subgroup. The data are consistent with the conclusion that TSE virus has evolved by a separate evolutionary pathway as compared with the close antigenic relatives, western European, far eastern TBE viruses and LI virus. By aligning the encoded amino acids in the viral envelope glycoprotein of mosquito- and tick-borne flaviviruses, we have also identified subgroup-specific pentapeptide motifs for the tick-borne encephalitis, Japanese encephalitis and dengue subgroup viruses of the genus Flavivirus. These pentapeptides have important implications for the evolution, classification and diagnosis of flaviviruses.

Parapoxviruses are strongly inhibited in vitro by cidofovir.

Three parapoxviruses which cause orf or related diseases in humans and animals and the orthopoxvirus, vaccinia virus, were tested for their in vitro sensitivity to cidofovir. The 50% inhibitory concentration for the three parapoxviruses was between 0.21 and 0.27 microg/ml and for vaccinia was 1.32 microg/ml. The selectivity index varied from 198 to 264 for the parapoxviruses and was 42 for vaccinia virus. Virus yield assays confirmed the ability of cidofovir to reduce ortho- and parapoxvirus replication. The efficacy of cidofovir against parapoxviruses justifies its evaluation as a candidate drug for the treatment of parapoxvirus infections in humans and animals.

Immunosuppression in toxoplasmosis: further studies on mice infected with louping-ill virus.

Mice were infected with an avirulent cyst-producing strain of Toxoplasma gondii and given injections of louping-ill virus 7 days later; control mice were given virus but not Toxoplasma. Test and control mice were then killed, in groups, 2, 4, 6, 8 and 10 days later. In the dually infected mice viraemia was later, greater and more prolonged; titres of virus recovered from brain and spleen were greater; production and haemagglutinating antibody to louping-ill virus was later and less, and inflammation in the brain was more severe, than in mice given virus alone. We suggest that T. gondii suppressed the immunity of mice, making them more susceptible to the virus, and that a significant proportion of the increased number of inflammatory cells observed in the brain could have been toxoplasma specific and not virus-specific and hence contributed to the increased susceptibility of the dually infected mice to louping-ill virus.

The response of the supramammary lymph node of the sheep to secondary infection with orf virus.

The response of the supramammary lymph node of seven sheep to secondary infection with orf virus was examined by cannulating the efferent lymphatic before infecting the drainage area of the node. All animals developed typical orf lesions and responded after an initial lag period with an increase in total cell output paralleled by a rising proportion of lymphoblast cells. Most lymphoblast contained immunoglobulin with a predominance of the IgG class. When cultured, these cells produced measurable amounts of virus-specific antibody. The proportion of cells which stained with a T-cell-specific monoclonal antibody was measured in two of the sheep and found to decrease as the response developed. These data suggest that the nodal response is directed mainly towards the production of virus-specific antibody. The extent of T-cell involvement remains unclear.

Recovery of a herpesvirus from a roan antelope (Hippotragus equinus).

A herpesvirus was recovered in culture from the cells of a roan antelope (Hippotragus equinus) following cryopreservation in DMSO and it is thought that the DMSO may have been involved in reactivation. The virus was shown to be antigenically related to alcelaphine herpesvirus-1 (AHV-1) of wildebeest and ovine herpesvirus-2 (OHV-2) of domestic sheep (formerly designated the sheep-associated agent of malignant catarrhal fever (MCF]. Cloned DNA fragments of AHV-1 and OHV-2 cross hybridised with DNA prepared from cells infected with the roan antelope virus and the intensity of reaction suggested that this virus was more closely related to AHV-1 than is OHV-2. The virus represents the third gamma herpesvirus isolated from large African antelope and should be provisionally designated hippotragine herpesvirus-1. On inoculation into rabbits the virus induced malignant catarrhal fever indicating that roan antelope should be considered as a possible source of infection.

Characterisation of the lymphoproliferation in rabbits experimentally affected with malignant catarrhal fever.

Malignant catarrhal fever (MCF) in rabbits caused by the three Herpesviruses: alcelaphine herpesvirus-1 (AHV-1), ovine herpesvirus-2 (OHV-2) and hippotragine herpesvirus-1 (HipHV-1) induced hyperplasia of lymphoid tissues and accumulations of mononuclear lymphoid cells in non-lymphoid tissues. However, certain lymph nodes were affected preferentially. The lymphoid cells in non-lymphoid tissues were CD43+ T-cells which showed evidence of in situ multiplication. A more detailed phenotypic analysis of splenocytes and lymph node cells in AHV-1 infected rabbits suggested that the hyperplasia was probably due to the expansion of CD8+ T-cells. On the basis of these data and the observations of other authors, that no or very little viral expression can be detected in lesions of MCF affected animals, we propose that the pathogenesis of MCF results from a dysregulation of a secretory T-cell activator. The variable pathology induced by the three viruses may reflect a quantitative or qualitative differences in this proposed activator.

Lack of cross-protection between vaccinia virus and orf virus in hysterectomy-procured, barrier-maintained lambs.

Hysterectomy-procured, barrier maintained lambs were immunised with either of virus or vaccinia virus and subsequently challenged with both viruses. Under these conditions lambs were protected from challenge with the homologous virus but no cross-protection was observed. The feeding of colostrum that contained antibodies to orf virus had no effect on the duration of viral lesions. Immunoblotting analysis and ELISA of serum samples taken during the course of the experiment indicated that the animals mounted antibody responses to both viruses. The cross recognition of 3 vaccinia virus antigens by the hyperimmune anti-orf virus serum was revealed by immunoblotting.

PCR detection of ovine herpesvirus-2 DNA in Indonesian ruminants--normal sheep and clinical cases of malignant catarrhal fever.

Malignant catarrhal fever (MCF), a fatal viral disease of cattle and other large ruminants, has a worldwide distribution. There are two forms of the disease, one of which, is caused by Alcelaphine herpesvirus-1 (AHV-1) and is derived from wildebeest. The other form is associated with domestic sheep and is caused by ovine herpesvirus-2 (OHV-2). The disease in Indonesia is sheep-associated with the preferred livestock of this area, Balinese cattle (Bos javanicus) and water buffalo (Bubalus bubalis), both highly susceptible to SA-MCF. The incidence in these species is thought to be high but the prevalence and economic losses attributable to SA-MCF have been difficult to assess. a polymerase chain reaction (PCR) test, based on a cloned OHV-2 gene sequence, was successfully applied to the detection of OHV-2 DNA in normal sheep and animals affected with SA-MCF. OHV-2 DNA was detected in eleven confirmed cases of SA-MCF and in the peripheral blood leucocyte (PBL) fraction of six latently infected sheep. These findings have confirmed that the PCR can be of value in establishing a diagnosis of MCF and that the aetiological agent of MCF in Indonesia is OHV-2. The amplification of DNA from the PBL of goats suggests that they are infected with a similar or identical herpesvirus.

A qualitative and quantitative assessment of the humoral antibody response of the sheep to orf virus infection.

The serological response of naturally and experimentally infected lambs to orf virus infection was analysed using an enzyme-linked immunosorbent assay (ELISA) together with the Western blotting technique. The combination of these two methods permitted a qualitative and quantitative assessment of the response, which revealed considerable variation between animals. Despite this, all post-exposure sera reacted with a polypeptide (molecular weight 40 kilodaltons) which appears to be a component of the surface tubules that are characteristic of the virus.

Identification of a region of the alcelaphine herpesvirus-1 genome associated with virulence for rabbits.

The gammaherpesvirus Alcelaphine Herpesvirus 1 (AHV-1) causes the fatal lymphoproliferative disease known as malignant catarrhal fever (MCF), in susceptible hosts. The virulent C500 isolate of AHV-1 became attenuated for the laboratory model, the rabbit, as a result of serial passage in cells of bovine origin. This work describes the identification of a region of the central unique sequence of the C500 genome, located close to the terminal repeat units of the molecule, which is altered on attenuation. The virulent C500 genome contains two copies of a sequence of approximately 2 kbp, contained within a 7 kbp region of the unique DNA located adjacent to the terminal repeats at the left end of the molecule. In the genome of the attenuated virus, there are also two copies of the 2 kbp sequence but they are located at the ends of the attenuated genome unique region, adjacent to the terminally repeated sequences. One open reading frame (ORF), designated putative polypeptide 5, was altered on attenuation such that the 3' sequence was lost. The location of this ORF, coupled with the loss of its 3' sequence, suggests that this ORF may encode a gene involved in the virulent mechanisms of this virus, in a manner similar to that of the transforming proteins of Herpesvirus saimiri (HSV).

Phenotypic analysis of lymphoblastoid cell lines derived from cattle and deer affected with "sheep-associated" malignant catarrhal fever.

Established lymphoblastoid cell lines with natural killer cell-like activity have been derived from cattle and deer affected with malignant catarrhal fever. They were examined phenotypically using monoclonal antibodies chosen for their cross-reactivity with peripheral blood lymphocytes from these species. Cell lines established from three of four cattle were identified as cytotoxic/suppressor lymphocytes (CD4-/CD8+/T19-) whilst the other was shown to be of the helper cell phenotype (CD4+/CD8-/T19-). Two other cell lines, one derived from a red deer and the other from a Père David's deer, were both CD4-/CD8-/T19. All of the lines examined expressed a T cell receptor (CD2+).

Phenotype, growth regulation and cytokine transcription in Ovine Herpesvirus-2 (OHV-2)-infected bovine T-cell lines.

The causal agent of sheep-associated malignant catarrhal fever (MCF), Ovine Herpesvirus-2 (OHV-2), can be propagated in IL-2-dependent lymphoblastoid cell lines derived from diseased cattle and deer providing a useful model for the investigation of the pathogenesis of MCF. In this study, five interleukin-2 (IL-2)-dependent cell lines were established from affected cattle to examine their growth regulation and cytokine transcription. All cell lines expressed CD2, CD5 and CD25. Three of the cell lines were CD4+ and one CD8+, whereas one cell was of mixed CD4 and CD8 phenotye. The growth of these cell lines was reduced when cultured with antibody against CD25, the IL-2 receptor alpha subunit. All cell lines showed a lack of response to Con A and their cell growth was inhibited by Cyclosporin A which is known to inhibit cytokine promoters. It was decided therefore, to examine the cell lines for the presence of mRNA of different cytokines. The results showed that the cell lines transcribed message for IFNgamma, TNFalpha, IL-4 and IL-10 whereas no mRNA for IL-2 or IL-1beta was detected. In conclusion, the OHV-2-immortalised cell lines resemble anergic T-cells which may be activated giving rise to the characteristic lesions of MCF.

Immune response of lambs to experimental infection with Orf virus.

A group of six specific pathogen free (SPF) lambs were infected epidermally with Orf virus. Seven weeks later they were reinfected. For a period of 4 weeks after each inoculation they were observed clinically and blood was collected for analysis of virus specific antibody measured by ELISA and peripheral blood lymphocyte (PBL) proliferative response to various viral antigens. After the primary infection all animals showed clinical signs of Orf, namely vesicle formation which became pustular followed by scabbing; this steadily became heavier prior to shedding and the resolution of the infection by about 4 weeks. The severity of infection varied within the group. Little lymphoproliferative activity was recorded during the primary infection, although five/six test animals had positive lymphoproliferative responses to an sodium dodecyl sulphate (SDS) solubilised scab purified Orf virus preparation at some point between days 7 and 14 after inoculation. All animals seroconverted to Orf virus, lymphoproliferative activity always preceding specific antibody detection. Resolution of the secondary infection was very rapid. Vesicles were visible by day 2 after inoculation which became pustular followed by scab formation and resolution in the majority of animals by day 8. All animals showed a significant (greater than four-fold) rise in specific antibody titre following secondary inoculation. The proliferative activity of PBL's was much greater than that recorded for the primary infection although the magnitude of this response varied greatly between individuals.

Response of efferent lymph and popliteal lymph node to epidermal infection of sheep with orf virus.

Functional and phenotypic changes in the cell populations were monitored in the popliteal efferent lymph of sheep following experimental epidermal infection with orf virus. In another group of sheep, cells from the popliteal lymph node draining the site of infection were similarly monitored and compared with the cells from contralateral popliteal and mesenteric lymph nodes. All sheep showed serological evidence of previous exposure to orf virus. Following infection, anti-orf antibody titres rose and efferent lymphocyte and blast cell output increased. Interferon-like activity was detected in efferent lymph early after orf virus but not mock infection. Lymphocytes from the draining popliteal lymph node showed antigen-specific lymphoproliferation on Days 3-7 while cells in the efferent lymph demonstrated proliferative activity on Days 4-6. The requirement for exogenous antigen-presenting cells in the culture of efferent lymphocytes varied between individual sheep. The culture supernatant from proliferating lymph node cells contained interferon-like activity but no anti-orf antibodies, the reverse of that from cultured efferent lymphocytes, perhaps indicating a different reactive T cell population. During the course of the experiment there was an increase in the percentage of efferent lymphocytes expressing MHC Class II antigens and surface immunoglobulins, the latter being recorded as a double peak. The short-term nature of the local T cell response may in part explain the incompleteness of immunity to orf virus in sheep.

Detection of cellular cytokine mRNA expression during orf virus infection in sheep: differential interferon-gamma mRNA expression by cells in primary versus reinfection skin lesions.

In sheep infected with the parapoxvirus orf virus, primary infection orf skin lesions developed and resolved within 8 weeks. Reinfection lesions were smaller and resolved within 3 weeks. The host response in the skin was characterized by an accumulation of neutrophils, dendritic cells, CD4+ T cells, CD8+ T cells, B cells and T19+ gammadelta T cells. The magnitude of this accumulation paralleled orf virus replication in the skin. In situ hybridization was used to detect cells expressing interferon-gamma (IFN-gamma), tumor necrosis factor-alpha (TNF-alpha) and interleukin-4 (IL-4) mRNAs in orf skin. Cells expressing IL-4 mRNA were not detected at any time after infection. Cells expressing IFN-gamma mRNA were detected after reinfection but not after primary infection. Cells expressing TNF-alpha mRNA included epidermal cells, vascular endothelium and uncharacterized cells that increased more rapidly in the skin after reinfection compared to primary infection. The results are consistent with a prominent role for IFN-gamma in the host immune response controlling the severity of the disease.

Effects of pulsed or continuous infusion of cortisol on immune function in sheep.

It was postulated that frequent pulses of cortisol such as might be induced by a repeated or chronic stressor, could induce immune suppression and that the effect would be greater than in animals subjected to less frequent increases. Four groups of nine adult Scottish Blackface ewes were infused for 14 d with saline or hydrocortisone hemisuccinate (cortisol) delivered continuously or in pulses. Plasma concentrations of cortisol were significantly elevated (to between approximately 100 and 1000 nmol/liter; P < 0.001) for about 30 or 75 min after infusion of pulses of hydrocortisone hemisuccinate at intervals of 1 hr (P1) or 6 hr (P6), respectively. In animals continuously infused (CI), they were consistently elevated (P < 0.001), compared with concentrations in control animals infused with saline only (S), to approximately 1000 nmol/liter or more. Antibody production in response to ovalbumin injection was not affected by any of the infusion regimes. At Days 10, 24, and 31 after injection of ovalbumin and initiation of the infusion, rates of multiplication of unstimulated lymphocytes, in vitro, were greater (P < 0.05) in P6 animals than in saline-infused, control animals and this resulted in a reduction in the stimulated lymphocyte response. As a consequence of the increased basal lymphocyte activity, after Day 0, the corrected, stimulated lymphocyte response of P6 animals was consistently below that of controls (P < 0.05 at Day 24). Both mean basal and stimulated lymphocyte activities in CI and P1 animals were similar to those of controls. The gamma interferon (IFN-gamma) response was generally small and not affected by treatment. It is concluded that large, relatively infrequent increases in circulating cortisol concentrations can modify the cell mediated immune response such that the response to a specific antigen challenge is compromised but smaller, more frequent pulses had no effect. Elevated cortisol concentrations per se did not have a significant inhibitory effect on the immune system.

The pathology of wildebeest-associated malignant catarrhal fever in hamsters, rats and guinea-pigs.

Lesions typical of malignant catarrhal fever were found in hamsters, rats and guinea-pigs inoculated with a rabbit-passaged strain (C-500) of alcelaphine herpesvirus-1. Lesions found during primary passage included proliferation of lymphoid tissues, multisystemic mononuclear cell infiltrates, vasculitis and necrosis, especially in the alimentary tract. The character, severity and distribution of lesions remained stable in affected hamsters during serial passage of disease, whereas lympho-proliferation became dominant in rats. The lesions in rats typically affected lymph nodes, heart and kidney and appear similar to those caused by oncogenic herpesviruses. Because rodents are susceptible to malignant catarrhal fever, the prospect is advanced that they can be used to elucidate the pathogenesis of both lymphoproliferative and cytolytic aspects of the disease.