Comparison of immunoassay and real-time PCR methods for the detection of Jembrana disease virus infection in Bali cattle

A sensitive diagnostic assay for the detection of infections with the bovine lentivirus Jembrana disease virus (JDV) is required in Indonesia to control the spread of Jembrana disease. Immunoassays are used routinely but are compromised by cross-reactive epitopes in the capsid (CA) protein of JDV and the genetically related bovine immunodeficiency virus (BIV). JDV gag-specific primers were tested in a real-time PCR assay to detect proviral DNA in peripheral blood mononuclear cells from 165 cattle from the Tabanan district of Bali. JDV-specific amplicons were detected in 9% of the cattle and only 33% of the real-time PCR positive cattle were seropositive. The delayed seroconversion that occurs after infection with JDV could explain the low concordance between these assays but other factors may be responsible. BIV proviral DNA was not detected in any of the PBMC DNA samples. A high concordance value of 98.6% was found between the JDV plasma-derived antigen Western blot and the JDV p26-his recombinant protein ELISA. Only 21% of the seropositive cattle had detectable levels of proviral DNA suggesting that the proviral load in recovered cattle is low. A combination of real-time PCR and JDV p26-his ELISA is recommended for the detection of infection with JDV in Indonesia

Flow cytometric analysis of lymphocyte subset kinetics in Bali cattle experimentally infected with Jembrana disease virus

Jembrana disease virus (JDV) is an unusual bovine lentivirus that causes an acute and sometimes fatal disease after a short incubation period in Bali cattle (Bos javanicus). The pathological changes occur primarily in lymphoid tissues, which feature proliferating lymphoblastoid-like cells predominantly throughout parafollicular (T-cell) areas, and atrophy of follicles (B-cell) areas. Five Bali cattle were experimentally infected with JDV and all developed typical clinical signs of Jembrana disease characterised by a transient febrile response, enlargement of superficial lymph nodes and a significant leukopenia. Flow cytometric analysis of PBMC during the acute (febrile) disease phase showed that the reduced number of lymphocytes was due to a significant decrease in both the proportion and absolute numbers of CD4 + T cells, but not CD8 + T-cells or CD21 + B-cells. At the end of the febrile phase, total numbers of both CD8 + T-cells and CD21 + B-cells increased significantly, while CD4 + T-cell numbers remained below normal values, resulting in a significantly reduced CD4 +:CD8 + ratio. We speculate that the persistent depletion of CD4 + T cells following JDV infection, through lack of CD4 + T cell help to B cells, may explain the lack of production of JDV-specific antibodies for several weeks after recovery despite an increase in CD21 + B cell numbers. Further, our previous data showing that IgG + plasma cells are targets for JDV infection, correlated with our current data demonstrating an increase in CD8 + T cell numbers, supports the suggestion that anti-viral cytotoxic T cell or other cell-mediated immune responses may be critical in the recovery process, although this remains to be formally demonstrated for JDV

Preparation of diagnostic polyclonal and monoclonal antibodies against outer envelope proteins of Serpulina pilosicoli

The purpose of this study was to prepare specific sera for use in the rapid detection and identification of the intestinal spirochaete Serpulina pilosicoli. In Western blot analysis, with pig antiserum which was raised against whole cells of S. pilosicoli and absorbed with outer envelope protein extracts from S. hyodysenteriae and S. innocens, a prominent protein with Mr of c. 72 kDa was consistently identified in outer envelope preparations of S. pilosicoli strains. Immunogold labelling demonstrated that this was located on the outer surface of intact S. pilosicoli cells. Two monoclonal antibodies (MAbs), designated C12 and M96, were raised against the protein. Although C12 reacted with a protein band of c. 72 kDa, this was also present in preparations from strains of other Serpulina spp. examined. MAb M96 reacted with an 80-kDa protein which was present only in preparations made from strains of S. pilosicoli. This was used in Western blot analysis and in an immunodot-blot assay with outer envelope extracts to specifically identify S. pilosicoli strains isolated from man, pigs, dogs and poultry. An indirect immunofluorescence test with MAb M96 also was used to detect and identify whole S. pilosicoli cells. Therefore, both the cross-absorbed antiserum and MAb M96 are potentially useful reagents for the detection and identification of S. pilosicoli

Prior bovine immunodeficiency virus infection does not inhibit subsequent superinfection by the acutely pathogenic Jembrana disease virus

In cattle the interaction between the two genetically and antigenically related bovine lentiviruses, the acutely pathogenic Jembrana disease virus (JDV) and the non-pathogenic Bovine immunodeficiency virus (BIV) has not been reported although both JDV and a BIV-like virus have been reported in the Bali cattle (Bos javanicus) population in Indonesia. The outcome of infection of Bali cattle with the R29 strain of BIV prior to superinfection 42 days later with JDVTAB/87 was determined. All BIV-inoculated cattle were successfully infected and developed an antibody response to the TM and CA proteins. BIV infection did not prevent subsequent infection with JDV or ameliorate the clinical signs of Jembrana disease in the infected cattle. It did, however, modify the dynamics of the JDV infection with an earlier onset and end of the acute disease process, and a reduction in the duration of viremia that exceeded 106 genome copies/ml of plasma