The mechanical arthropod vectorStomoxys calcitransinfluences the outcome of lumpy skin disease virus infection in cattle

Abstract

AbstractThe poxvirus lumpy skin disease virus (LSDV) is the etiological agent of lumpy skin disease (LSD), a severe disease of cattle and water buffalo that is characterised by numerous necrotic cutaneous nodules. LSD is a rapidly emerging disease, spreading into and across the Middle East, eastern Europe, and Asia in the past decade. The disease causes substantial production and economic losses in rural communities and affected regions. LSDV is mechanically transmitted by haematophagous arthropods including stable flies (Stomoxys calcitrans), however our understanding of this mechanical transmission method is sparse. A secreted saliva collection methodology using a modified artificial membrane feeding system was optimised forS. calcitransand used to collect and characterise secretedS. calcitranssaliva. Saliva was mixed with LSDV and shown not to affect virus growth in primary bovine fibroblasts.S. calcitranssaliva or spot-feeding byS. calcitranswas then incorporated into a bovine in vivo experimental model of LSD to determine if either influenced disease pathogenesis.S. calcitranssaliva resulted in fewer animals developing disease, however this difference was not statistically significant. Spot-feeding withS. calcitransprior to inoculation did not alter the number of animals that developed disease or the overall severity of disease however disease progression was accelerated as demonstrated by the appearance of cutaneous nodules, detection of viral DNA in the blood stream, and production of neutralising antibodies. This shows thatS. calcitransinfluence disease kinetics through co-incident bite trauma and/or saliva deposition. This increases our understanding of LSDV pathogenesis and highlights the overlooked importance of mechanical vectors in pathogen transmission.Author summaryInsect vectors are important conduits for the transmission of pathogens that cause diseases such as Zika, dengue, malaria, and lumpy skin disease. Biological vector-borne transmission incorporates a replication phase for the pathogen in the insect, whereas no replication occurs in the vector during mechanical transmission. When the insect bites the host it inoculates a pathogen whilst also delivering arthropod-derived factors such as saliva components and causing tissue trauma through biting and probing. Arthropod saliva and/or bite trauma have been shown to enhance the speed and severity of disease following inoculation with a range of biologically transmitted viruses. This study examined if this was true also for the mechanically transmitted pathogen lumpy skin disease virus (LSDV). LSDV is a neglected pathogen that causes severe systemic disease in cattle and is transmitted mechanically by the stable flyStomoxys calcitrans. Using an experimental bovine model of LSD, we found that disease occurred more rapidly when virus was delivered in association with the bites of uninfected flies. This work has increased our knowledge of lumpy skin disease virus transmission, and the discovery that disease outcome can be impacted by previously overlooked mechanical insect vectors should prompt further investigation into this mechanism of transmission.