Conformation-specific monoclonal antibodies recognizing the native structure of G protein-coupled receptor (GPCR)

Advanced hybridoma technology for selective production of high-affinity monoclonal antibodies through B-cell receptors

In general, it is difficult to raise novel monoclonal antibodies against relatively low-molecular weight antigen, and particularly those with high homology for the mouse protein. The optimized B-cell targeting (BCT) technique can overcome this limitation. The point of this advanced technology is the selection of sensitized B lymphocytes by the antigen through B-cell receptors (BCRs). This strict selection by specific and strong interaction between antigen and antibody enables the efficient production of monoclonal antibodies with high specificity and affinity. It also offers the condensation of sensitized target B lymphocytes to selectively generate hybridoma cells secreting desired monoclonal antibodies. In this study, several kinds of biotinylated human myoglobin (hMyo) were prepared to select sensitized B lymphocytes via BCRs. Biotinylated hMyo prepared by a 3.75- and 7.5-fold molar excess of N-hydroxysuccinimide (NHS)-biotin provided high antigenicity of 68-88%. B lymphocytes selected by these biotinylated antigens had an ELISA-positive rate >17 times higher than that with usual biotinylated antigen. Monoclonal antibodies generated by the optimized BCT technology by preselecting sensitized B lymphocytes with the target antigen were identified to specifically recognize lower antigenic epitopes in hMyo with high affinity, while this would be impossible by the polyethylene glycol (PEG) method. Furthermore, combination of these high-affinity monoclonal antibodies gave the best binding rate in an epitope binning assay. These outcomes could be attributed to the unique characteristic that BCRs on sensitized B lymphocytes themselves can select the target epitopes in the antigen. The BCRs may act as a strict sensor of B lymphocytes to precisely select the target epitopes, even though the number of immunized B lymphocytes is low.

Class-Switching of B Lymphocytes by DNA and Cell Immunization for Stereospecific Monoclonal Antibodies against Native GPCR

To develop efficient applications of monoclonal antibodies for therapeutic purposes, stereospecific recognition of the target antigens is needed. DNA immunization is one of the best methods for sensitizing B lymphocytes that can produce conformation-specific antibodies. Here we verified the class-switching of monoclonal antibodies by DNA immunization followed by cell immunization for the generation of stereospecific monoclonal antibodies against native G protein-coupled receptor (GPCR) using the optimized stereospecific targeting (SST) technique. This technology facilitates the efficient selection of sensitized B lymphocytes through specific interaction with the intact antigen via B-cell receptors (BCRs). We demonstrate that multiple DNA immunizations followed by a single cell immunization in combination with a longer sensitization period (three to four months) are an appropriate sensitizing strategy for the generation of IgG-type stereospecific monoclonal antibodies by class-switching, and the characteristics of antibody production could be transferred to hybridoma cells provided by the optimized SST technique.