Abstract
Therapeutic antibodies are widely used for disease detection and specific treatments. However, as an exogenous protein, these antibodies can be detected by the human immune system and elicit a response that can lead to serious illnesses. Therapeutic antibodies can be engineered through antibody humanization, which aims to maintain the specificity and biological function of the original antibodies, and reduce immunogenicity. However, the antibody drug effect is synchronously reduced as more exogenous parts are replaced by human antibodies. Hence, a major challenge in this area is to precisely detect the epitope regions in immunogenic antibodies and guide point mutations of exogenous antibodies to balance both humanization level and drug effect. In this article, the latest dataset of immunoglobulin complexes was collected from protein data bank (PDB) to discover the spatial features of immunogenic antibody. Furthermore, a series of structure descriptors were generated to characterize and distinguish epitope residues from non-immunogenic regions. Finally, a computational model was established based on structure descriptors, and results indicated that this model has the potential to precisely predict the epitope regions of therapeutic antibodies. With rapid accumulation of immunoglobulin complexes, this methodology could be used to improve and guide future antibody humanization and potential clinical applications.
Highlights
Antibodies are a group of proteins that can bind to different classes of target antigens through epitope regions [1]
Therapeutic monoclonal antibodies were produced by hybridoma cells which were generated by the fusion of spleen cells from mice immunized with an antigen of interest and myeloma cells [5]
In clinical trials, researchers found that the human immune system would be alerted by those therapeutic monoclonal antibodies (mAb) and produce anti-drug antibody (ADA) [6]
Summary
Antibodies are a group of proteins that can bind to different classes of target antigens through epitope regions [1]. In clinical trials, researchers found that the human immune system would be alerted by those therapeutic mAb and produce anti-drug antibody (ADA) [6]. This meant that mAb were identified as exogenous antigens by the human immune system and neutralized by ADA. The therapeutic effect of those immunogenic antibodies (iAb) was limited. If those ADAs can cross-react with human endogenous proteins, it may lead to serious autoimmune diseases [7]. In that case, reducing the immunogenicity of exogenous therapeutic antibodies is essential for maintaining the curative effect in antibody-dependent disease treatment
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