Abstract
Humanized monoclonal antibodies (mAbs) are among the most promising modern therapeutics, but defined engineering strategies are still not available. Antibody humanization often leads to a loss of affinity, as it is the case for our model antibody Ab2/3H6 (PDB entry 3BQU). Identifying appropriate back-to-mouse mutations is needed to restore binding affinity, but highly challenging. In order to get more insight, we have applied molecular dynamics simulations and correlated them to antibody binding and expression in wet lab experiments. In this study, we discuss six mAb variants and investigate a tyrosine conglomeration, an isopolar substitution and the improvement of antibody binding towards wildtype affinity. In the 3D structure of the mouse wildtype, residue R94h is surrounded by three tyrosines which form a so-called ‘tyrosine cage’. We demonstrate that the tyrosine cage has a supporting function for the CDRh3 loop conformation. The isopolar substitution is not able to mimic the function appropriately. Finally, we show that additional light chain mutations can restore binding to wildtype-comparable level, and also improve the expression of the mAb significantly. We conclude that the variable light chain of Ab2/3H6 is of underestimated importance for the interaction with its antigen mAb 2F5.
Highlights
The transfection mix was fed with 0.5% tryptone N1 (TN1; Sigma Aldrich, #T9410) (Pham et al, 2005) and 5 mM valproic acid (VPA; Sigma Aldrich; dissolved in deionized water, #P4543) (Jäger et al, 2013) 48 h post transfection
Molecular dynamics (MD) simulation suggested an interaction of the charged side chain of R94h with the side chains of Y27h, Y32h and Y102h and the backbone of T95h
In 2014, the WHO revised the International Nonproprietary Name (INN) definitions for naming antibodies to assess them based upon identity with human V gene germline sequences
Summary
Jerne received the Nobel Prize in Physiology or Medicine for his hypothesis of the immune network (Uhr, 1984). He proposed that antibodies are able to recognize and interact with each other and not uniquely with foreign antigens (Jerne, 1974). The murine monoclonal antibody Ab2/3H6 was generated to block the binding of human anti HIV-1 Ab1 2F5 (Kunert et al, 2002) such that it may mimic the HIV-1 antigen. It was further used as model Ab2 for humanization approaches (Gach et al, 2007; Mader and Kunert, 2010). In a rational approach referred to as superhumanization, mouse complementarity
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