Rapid Quantification of Bluetongue Virus-Neutralizing Antibodies Using Bioluminescent Reporter-Expressing Viruses.
Luis Jiménez-Cabello, Sergio Utrilla-Trigo, Eva Calvo-Pinilla, Aitor Nogales, Javier Ortego
Abstract
Open AccessBluetongue virus (BTV) is the causative agent of the significant livestock disease Bluetongue (BT), which causes severe economic losses associated with its considerable impact on the health and trade of ruminants. Background/Objectives: BTV infection and vaccination against the virus typically result in the induction of antibodies with the capacity to neutralize viral infection. Classic neutralization approaches resemble the methodology applied for neutralizing antibodies (NAbs) quantification. To improve long-standing and new-generation methodologies for the quantification of NAbs or evaluation of antivirals, we offer here the development of a new luciferase-based microneutralization approach as a proof-of-concept. Methods: Central to this innovative approach is the recently generated set of replication-competent reporter-expressing recombinant BTV, where the NanoLuc luciferase protein expression serves as a quantifiable readout for viral replication. After evaluating a set of heat-inactivated serum samples with neutralizing activity (measured via SNTs), these were incubated with 100 PFU of NLuc-expressing rBTV of serotype 1, 4 or 8 and Vero cells were infected with the serum-virus mixture. Then, the luminescent signal was measured at 48 h post-infection. Results: Using the proposed NLuc-based assay and the luminescent signal in the supernatant, we could detect neutralizing activity as soon as 48 h post-infection. Importantly, we were able to observe a strong correlation between NAbs titers measured by classic microneutralization assay and by our bioluminescent approach (BTV-1 Spearman r = 0.932901; p-value < 0.0001; BTV-4 Spearman r = 0.8070192; p-value < 0.0001; BTV-8 Spearman r = 0.9983; p-value < 0.0001). In addition, the NLuc-based assay displayed a serotype-specific character potentially equivalent to classic SNT methods. Conclusions: In summary, our reporter-based microneutralization assay provides a rapid and suitable method to quantify BTV-neutralizing antibodies in serum samples of natural hosts after vaccination or infection, with a serotype-specificity equivalent to classic SNT methods.