Development and qualification of a fast, high-throughput and robust imaging-based neutralization assay for respiratory syncytial virus.

Abstract Respiratory syncytial virus (RSV) is a common pathogen causing severe respiratory illness in infants and elder adults. The development of an effective RSV vaccine is an important unmet medical need and an area of active research. The traditional method for testing neutralizing antibodies against RSV in clinical trials is the plaque reduction neutralization test (PRNT), which uses 24-well plates and needs several days post infection to develop viral plaques. In this study, we have developed a virus reduction neutralization test (VRNT), which allows the number of RSV infected cells to be automatically counted by an imaging cytometer at one day post infection in 96-well plates. VRNT was found robust to cell seeding density, detection antibody concentration, virus input and infection time. By testing twenty human sera, we have shown good correlation between VRNT50 and PRNT50 titers for multiple RSV strains: A2, Long and 18537 (serotype B). To understand the VRNT performance, eight human serum samples with high, medium and low neutralization titers were selected for VRNT qualification. We have demonstrated that VRNT had good specificity, precision, linearity and relative accuracy. In conclusion, VRNT is a better alternative to PRNT in serum neutralization test for RSV vaccine candidates.