Importance of the lumpy skin disease virus (LSDV) LSDV126 gene in differential diagnosis and epidemiology and its possible involvement in attenuation.

Examination of lumpy skin disease virus (LSDV) isolates from different geographic regions and times revealed that assays developed in our laboratory for differentiating between virulent Israeli viruses and Neethling vaccine virus (NVV) are generally useful in most, if not all, endemic areas in which NVV-based vaccines are used. Recently it was revealed that the LSDV126 gene of field isolates contains a duplicated region of 27 bp (9 aa), while the vaccine viruses have only one copy. Phylogenetic analysis of a 532-bp segment carrying the LSDV126 gene and whole virus genome sequences revealed that LSDV isolates formed two groups: virulent and vaccine viruses. In this analysis, all of the capripox viruses that lack the ability to efficiently infect cattle were found to carry only one copy of the 27-bp fragment, suggesting that the LSDV126 gene plays an important role in the ability of capripox viruses to infect cattle. In silico analysis of potential antigenic sites in LSDV126 revealed that LSDV126 variants with only one copy of the repeat lack a potentially important antigenic epitope, supporting its possible significance in cattle infection. This study provides new information about the nature of the LSDV126 gene and its possible role in the life cycle of LSDV.

A high-resolution melting (HRM) assay for the differentiation between Israeli field and Neethling vaccine lumpy skin disease viruses.

Lumpy skin disease (LSD) is a constant threat to the Middle East including the State of Israel. During vaccination programs it is essential for veterinary services and farmers to be able to distinguish between animals affected by the cattle-borne virulent viruses and vaccinated animals, subsequently affected by the vaccine strain. This study describes an improved high resolution-melting (HRM) test that exploits a 27 base pair (bp) fragment of the LSDV126 extracellular enveloped virion (EEV) gene that is present in field viruses but is absent from the Neethling vaccine strain. This difference leads to ∼0.5 °C melting point change in the HRM assay, when testing the quantitative PCR (qPCR) products generated from the virulent field viruses compared to the attenuated vaccine. By exploiting this difference, it could be shown using the newly developed HRM assay that virus isolated from vaccinated cattle that developed disease symptoms behave similarly to vaccine virus control, indicating that the vaccine virus can induce disease symptoms. This assay is not only in full agreement with the previously published PCR gradient and restriction fragment length polymorphism (RFLP) tests but it is faster with, fewer steps, cheaper and dependable.

Development of an assay to differentiate between virulent and vaccine strains of lumpy skin disease virus (LSDV).

Lumpy skin disease (LSD) was and still is a constant threat to the State of Israel, since the first outbreaks in 1989 and in 2006-2007. Recently, another massive outbreak occurred, at the beginning of July 2012, in the northern part of Israel. An intensive vaccination campaign with a sheeppox-based vaccine was initiated, in addition to culling symptomatic animals in the dairy herds. In spite of this, there was a need to apply extra efforts to completely contain and control the spread of the disease by introducing for the first time in Israel a vaccine based on the Neethling vaccine virus strain. However, in case of appearance of LSD symptoms it was essential to be able to distinguish between cattle-carried virulent strain and the vaccine strain. This paper describes the development and utilization of a molecular assay that can differentiate between the virulent isolates from the vaccine strain. The system is based on 3 different tests; it was found that the vaccine strain carries 27 bases less than the virulent virus in the extracellular enveloped virions (EEV) gene. A temperature-gradient PCRs were done using primers which are identical to the vaccine strain but differ at the 3' end nucleotides to the virulent virus. PCR-RFLP was carried out on the presence of an MboI site unique to the vaccine strain. Thus, all three tests presented here are able to differentiate specifically between the two viral appearances.