High Throughput Screening for Human Interferon-y Production Inhibitor Using Homogenous Time-Resolved Fluorescence

Abstract

An immunoassay for interferon-γ (IFN-γ) using homogeneous time-resolved fluorescence (HTRF) has been developed. In this assay, IFN-γ can be detected by simply adding a mixture of three reagents-biotinylated polyclonal antibody, europium cryptate (fluorescence donor, EuK)-labeled monoclonal antibody, and crosslinked allophycocyanin (fluorescence acceptor, XL665) conjugated with streptavidin-and then measuring the time-resolved fluorescence. The detection limit of IFN-γ by the proposed method is about 625 pg/ml. We applied the method to the detection of IFN-γ secreted from NK3.3 cells and employed it in high throughput screening for IFN-γ production inhibitors. With this screening format, IFN-γ can be measured by directly adding the above reagents to microplate wells where NK3.3 cells are being cultured and stimulated with interleukin-12. This "in situ" immunoassay requires only pipetting reagents, with no need to transfer the culture supernatant to another microplate or wash the plate. Therefore, this screening format makes possible full automation of cell-based immunoassay, thus reducing cost and experimental time while increasing accuracy and throughput.