Abstract

Cartilaginous fishes such as sharks have adaptive immune systems based on immunoglobulins similar to those in mammals. During their evolution, cartilaginous fishes individually have acquired their adaptive immune system called immunoglobulin new antigen receptor (IgNARs). IgNARs maintain their functions in the harsh environment of shark serum, which contains a high concentration of urea to prevent water loss in seawater. Therefore, IgNARs have high structural stability, and are expected to be used as next-generation antibodies in applications different from those of conventional IgG antibodies. However, no recombinant expression system for IgNAR, which has a molecular weight of approximately 147kDa as a dimer and multiple N-glycosylation sites, has yet been constructed. This has stalled research into IgNAR development. Here, we constructed a recombinant expression system for IgNAR using Chinese hamster ovary (CHO) cells, widely used as hosts for IgG antibody production. Using this system, IgNAR was successfully expressed and purified as a human IgG Fc fusion protein and showed antigen-binding ability. After Protein A affinity purification, followed by specific cleavage and removal of the human Fc-region, the final yield of IgNAR was 1.07 mg/L-medium. Moreover, this CHO cell expression system modified IgNAR with various N-glycans, including high-mannose and complex types. This expression system will allow us to analyze the structure, physicochemical properties, and biological functions of IgNAR. This fundamental information will advance the development of IgNARs for industrial and biotechnological applications.

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