Ligand-inducible dimeric antibody for selecting antibodies against a membrane protein based on mammalian cell proliferation.

A method for selecting antibodies against a membrane protein is important for attaining a variety of antibody-based diagnostics and therapies. In this study, we propose a novel system to select specific antibodies against a membrane protein based on mammalian cell proliferation as a readout. The system employs a chimeric membrane protein in which a target membrane protein of interest is fused to the intracellular signaling domain of a cytokine receptor. The chimeric membrane protein transduces a cell proliferation signal through dimerization when co-expressed with a specific single-chain Fv fused with a mutant of FK-binding protein 12 (scFv-Fk) that can be conditionally dimerized by a synthetic ligand AP20187. To demonstrate this system, ErbB2 and gp130 were chosen as the target membrane protein and cytokine receptor, respectively. Consequently, co-expression of the ErbB2/gp130 chimera and ErbB2-specific scFv-Fk rendered the cells proliferative in response to AP20187. The system also allowed selection of high-affinity binders from a mixture composed of dominant low-affinity binders. This system may be extended to affinity maturation of scFvs by modulating AP20187 concentration in the selection process.