Insight into the modified Ibalizumab-human CD4 receptor interactions: using a computational binding free energy approach.

Yeng-Tseng Wang, Lea-Yea Chuang

Journal of computer-aided molecular design 2015 Jan

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Antibody drugs are very useful tools for the treatment of many chronic diseases. Recently, however, patients and doctors have encountered the problem of drug resistance. How to improve the affinity of antibody drugs has therefore become a pressing issue. Ibalizumab is a humanized monoclonal antibody that binds human CD4, the primary receptor for human immunodeficiency virus type 1. This study investigates the mutation residues of the complementarity determining regions of Ibalizumab. We propose using the wild and mutations of Ibalizumab-human CD4 receptor complex structures, molecular dynamics techniques, alanine-scanning mutagenesis calculations and solvated interaction energies methods to predict the binding free energy of the Ibalizumab-human CD4 receptor complex structures. This work found that revealed three key positions (31th, 32th and 33th in HCDR-1) of the residues may play an important role in Ibalizumab-human CD4 receptor complex interactions. Therefore, bioengineering substitutions of the three key positions and increasing number of intermolecular interactions (HCDR-1 of Ibalizumab/human CD4 receptor) might improve the binding affinities of this complex structure.

Citation

Yeng-Tseng Wang, Lea-Yea Chuang. Insight into the modified Ibalizumab-human CD4 receptor interactions: using a computational binding free energy approach. Journal of computer-aided molecular design. 2015 Jan;29(1):69-78