Yeast Surface Dual Display Platform for Rapid Discovery of Shark VNAR from a Semi-Synthetic Library Followed by Next-Generation Sequencing

Abstract

The shark-derived single-domain antibody VNAR (variable domain of new antigen receptor) has many advantageous features that make the VNAR suitable for improving current monoclonal antibody therapy deficiencies or disease diagnosis methods. In order to discover more VNARs, it is necessary to improve the efficiency of the isolation process. This research aims to enhance the VNAR discovery platform by dual displaying the semi-synthetic VNAR library and green fluorescent protein tag on the yeast surface. The GFP tag can be used to determine the degree of VNAR expression. The diversity of the semi-synthetic VNAR library constructed in this study is verified to be 1.97 × 109 by next-generation sequencing (NGS). We conveniently screened VNARs against the feline neonatal Fc receptor or feline infectious peritonitis virus nucleocapsid protein by sequential MACS and FACS. To find more diverse VNARs, we analyzed the NGS data of VNAR CDR3 genes before and after biopanning. By comparing the frequency change of each sequence, we found that the amplification factor of sequences was increased by biopanning. Four VNAR candidates selected by the high-frequency and high-amplification factor criteria showed an antigen-binding ability. The results demonstrate that biopanning from a yeast surface displaying a semi-synthetic VNAR library followed by the NGS assay can generate antigen binders rapidly without the need for shark rearing and long-term immunization.