African horse sickness (AHS) is a debilitating and highly infectious arthropod-borne disease affecting all species of Equidae. The causative agent of AHS is the non-enveloped dsRNA African horse sickness virus (AHSV), belonging in the genus Orbivirus, family Reoviridae. The identification and surveillance of AHSV by simple and reliable diagnostic tools is essential for managing AHS outbreaks. Indirect ELISAs utilising soluble AHSV antigen or recombinant VP7, an immunodominant and serogroup-specific major core structural protein, are commonly used for serological diagnostic assays. Plant production systems are a significant alternative for recombinant protein production, as they are safe, easily scalable, produc... More
African horse sickness (AHS) is a debilitating and highly infectious arthropod-borne disease affecting all species of Equidae. The causative agent of AHS is the non-enveloped dsRNA African horse sickness virus (AHSV), belonging in the genus Orbivirus, family Reoviridae. The identification and surveillance of AHSV by simple and reliable diagnostic tools is essential for managing AHS outbreaks. Indirect ELISAs utilising soluble AHSV antigen or recombinant VP7, an immunodominant and serogroup-specific major core structural protein, are commonly used for serological diagnostic assays. Plant production systems are a significant alternative for recombinant protein production, as they are safe, easily scalable, production rates are rapid and upstream processes are more cost-effective than more traditional expression systems. This pilot study reports the successful production of AHSV-5 VP7 quasi-crystals in Nicotiana benthamiana by Agrobacterium tumefaciens-mediated transient expression using the self-replicating pRIC3.0 plant expression vector. After purification by means of density gradient ultracentrifugation, yields of pure VP7 of 2.66 µg/g fresh leaf mass (FLM) were achieved. Purified plant-produced AHSV-5 VP7 detected AHSV-specific antibodies in horse sera in an indirect ELISA and was able to distinguish between AHSV-positive and negative sera. Additionally, plant-produced AHSV-5 VP7 detected AHSV-specific antibodies to the same degree as E. coli-produced VP7. These results justify further investigation into the diagnostic capability of plant-produced AHSV VP7 quasi-crystals. To the best of our knowledge, this is the first report of AHSV VP7 quasi-crystal production in N. benthamiana and the first time that plant-produced VP7's potential as a diagnostic has been assessed.