Abstract
Therapeutic monoclonal antibodies (mAbs) have high efficacy in treating TNF α‐related immunological diseases. Other than neutralizing TNF α, these IgG1 antibodies exert Fc receptor‐mediated effector functions such as the complement‐dependent cytotoxicity (CDC) and antibody‐dependent cell cytotoxicity (ADCC). The crystallizable fragment (Fc) of these IgG1 contains a single glycosylation site at Asn 297/300 that is essential for the CDC and ADCC. Glycosylated antibodies lacking core fucosylation showed an improved ADCC. However, no structural data are available concerning the ligand‐binding interaction of these mAbs used in TNF α‐related diseases and the role of the fucosylation. We therefore used comparative modeling for generating complete 3D mAb models that include the antigen‐binding fragment (Fab) portions of infliximab, complexed with TNF α (4G3Y.pdb), the Fc region of the human IGHG1 fucosylated (3SGJ) and afucosylated (3SGK) complexed with the Fc receptor subtype Fcγ RIIIA, and the Fc region of a murine immunoglobulin (1IGT). After few thousand steps of energy minimization on the resulting 3D mAb models, minimized final models were used to quantify interactions occurring between Fcγ RIIIA and the fucosylated/afucosylated Fc fragments. While fucosylation does not affect Fab‐TNF α interactions, we found that in the absence of fucosylation the Fc–mAb domain and Fcγ RIIIA are closer and new strong interactions are established between G129 of the receptor and S301 of the Chimera 2 Fc mAb; new polar interactions are also established between the Chimera 2 Fc residues Y299, N300, and S301 and the Fcγ RIIIA residues K128, G129, R130, and R155. These data help to explain the reduced ADCC observed in the fucosylated mAbs suggesting the specific AA residues involved in binding interactions.
Highlights
Therapeutic monoclonal antibodies targeting tumor necrosis factor alpha (TNFa) have high efficacy in treating TNFa-related immunological diseases such as ankylosing spondylitis (AS), rheumatoid arthritis (AR), and skin diseases as psoriasis arthritis (PSA), as well as Chron’s disease (CD) and ulcers colitis (UC) affecting gastrointestinal apparatus
In the present work we provided for the first time three complete monoclonal antibodies (mAbs) models that included the antigen-binding fragment (Fab) portions of infliximab complexed with TNFa, the crystallizable fragment (Fc) region of a human IGHG1 fucosylated (3SGJ) or afucosylated (3SGK) complexed with FccRIIIA, and the Fc portion of a murine immunoglobulin (1IGT)
We aligned the sequences of the light chains of the Fab fragment of the infliximab (PDB_ID: 4G3Y) (Liang et al 2013) with the light chains of the Fab fragment of a murine immunoglobulin (PDB_ID: 1IGT) (Harris et al 1997)
Summary
Therapeutic monoclonal antibodies (mAbs) targeting tumor necrosis factor alpha (TNFa) have high efficacy in treating TNFa-related immunological diseases such as ankylosing spondylitis (AS), rheumatoid arthritis (AR), and skin diseases as psoriasis arthritis (PSA), as well as Chron’s disease (CD) and ulcers colitis (UC) affecting gastrointestinal apparatus. The primary mechanism of action of these mAbs involves the binding of the antigen-binding fragment (Fab) of the IgG1 to the circulating and membrane bound TNFa antigen. The sites of interaction and the AA residues responsible for the binding of the Fab fragment to the antigen were recently reported for the first time for infliximab (Liang et al 2013). Crystallography revealed that there is only one TNFa/infliximab–Fab complex in one asymmetric unit. The structure revealed a 3:3 molar ratio of TNFa and infliximab–Fab complex. The E-F loop is critical in determining the high affinity and specificity of the binding of infliximab to TNFa versus TNFb (Liang et al 2013)
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