High-Throughput Screening for High Affinity Antibodies

UCB Selected Lymphocyte Antibody Method (SLAM) is a rapid and efficient process for the generation of high-quality monoclonal antibodies, in which variable region gene sequences are recovered directly from specific, single B cells. Monoclonal antibody generation has been limited in the past by the relatively low efficiency of the hybridoma process. UCB SLAM process is well suited to high-throughput screening and has been extensively automated at UCB. If necessary, in excess of 1×109 B cells can be screened in a campaign, to discover a rare therapeutic antibody candidate, which meets the stringent selection criteria. Primary screening for antigen binders, on purified or cell expressed antigen, is performed using a homogeneous fluorescence assay format. Supernatants from positive wells are consolidated to allow further secondary screening and selection of antibodies with desired characteristics. Individual, specific B cells are identified using a fluorescence based method and isolated using a micromanipulator. The antibody variable region genes are cloned from DNA extracted from the single B cell. The genes are sequenced then prepared for transient expression to confirm activity. Antibodies with affinities (KD) in the sub 10 pM range against a range of therapeutic targets are routinely recovered using this process.