Abstract

Since 2012, lumpy skin disease virus (LSDV) has been spreading from the Middle East to south-east Europe and Russia. Although vaccination campaigns have managed to contain LSDV outbreaks, the risk of further spread is still high. The most likely route of LSDV transmission in short distance spread is vector-borne. Several arthropod species have been suggested as potential vectors, but no proven vector has yet been identified. To check whether promiscuous-landing synanthropic flies such as the common housefly (Musca domestica) could be involved, we carried out entomological trapping at the site of a recent LSDV outbreak caused by a vaccine-like LSDV strain. The presence of vaccine-like LSDV DNA was confirmed by the assay developed herein, the assay by Agianniotaki etal. (2017) and RPO30 gene sequencing. No evidence of field LSDV strain circulation was revealed. In this study, we discovered that M.domestica flies carried vaccine-like LSDV DNA (Ct >25.5), whereas trapped stable flies from the same collection were negative for both field and vaccine LSDV. To check whether flies were contaminated internally and externally, 50 randomly selected flies from the same collection were washed four times and tested. Viral DNA was mainly detected in the 1st wash fluid, suggesting genome or even viral contamination on the insect cadaver. In this study, internal contamination in the insect bodies without differentiation between the body locations was also revealed; however, the clinical relevance for mechanical transmission is unknown. Further work is needed to clarify a role of M.domestica in the transmission of LSDV. To our knowledge, this is the first report demonstrating that an attenuated LSD vaccine strain has been identified in Russian cattle given the ban on the use of live attenuated vaccines against LSDV.

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