Development of a novel mammalian display system for selection of antibodies against membrane proteins

Nathan Robertson,Nancy Lopez-Anton,Shalom A Gurjar,Hena Khalique,Zainab Khalaf,Siobhan Clerkin,Vaughan R Leydon,Richard Parker-Manuel,Alexander Raeside,Tom Payne,Tim D Jones,Len Seymour,Ryan Cawood

doi:10.1074/jbc.ra120.015053

Abstract

Reliable, specific polyclonal and monoclonal antibodies are important tools in research and medicine. However, the discovery of antibodies against their targets in their native forms is difficult. Here, we present a novel method for discovery of antibodies against membrane proteins in their native configuration in mammalian cells. The method involves the co-expression of an antibody library in a population of mammalian cells that express the target polypeptide within a natural membrane environment on the cell surface. Cells that secrete a single-chain fragment variable (scFv) that binds to the target membrane protein thereby become self-labeled, enabling enrichment and isolation by magnetic sorting and FRET-based flow sorting. Library sizes of up to 109 variants can be screened, thus allowing campaigns of naïve scFv libraries to be selected against membrane protein antigens in a Chinese hamster ovary cell system. We validate this method by screening a synthetic naïve human scFv library against Chinese hamster ovary cells expressing the oncogenic target epithelial cell adhesion molecule and identify a panel of three novel binders to this membrane protein, one with a dissociation constant (KD) as low as 0.8 nm. We further demonstrate that the identified antibodies have utility for killing epithelial cell adhesion molecule–positive cells when used as a targeting domain on chimeric antigen receptor T cells. Thus, we provide a new tool for identifying novel antibodies that act against membrane proteins, which could catalyze the discovery of new candidates for antibody-based therapies.

Highlights

Reliable, specific polyclonal and monoclonal antibodies are important tools in research and medicine
We present here data showing the isolation of Chinese hamster ovary (CHO) cells that secrete influenza hemagglutinin epitope (HA)–tagged single-chain fragment variable (scFv) that bind to the membrane protein epithelial cell adhesion molecule (EpCAM)
These clonal cell lines were screened for EpCAM expression and a high-expressing CHO–EpCAM clone was identified for use in further experiments

Summary

Introduction

Specific polyclonal and monoclonal antibodies are important tools in research and medicine. To provide a mammalian display technique with both these major advantages, we here describe a method by which we package large antibody libraries with diversities of ;109 into lentiviral particles and use these to transduce CHO cells that have been engineered to express the target membrane protein. This allows much larger library sizes to be sampled than with existing methods (by at least 100-fold) and is only limited by the number of cells that can be cultured. We describe for the first time the screening of a large naïve scFv library fully in a mammalian system and identify binders to a membrane protein antigen presented on the cell surface

Methods

Results

Conclusion