Abstract
Humira is a monoclonal antibody that binds to TNF alpha, inactivates TNF alpha receptors, and inhibits inflammation. Neonatal Fc receptors can mediate the transcytosis of Humira–TNF alpha complex structures and process them toward degradation pathways, which reduces the therapeutic effect of Humira. Allowing the Humira–TNF alpha complex structures to dissociate to Humira and soluble TNF alpha in the early endosome to enable Humira recycling is crucial. We used the cytoplasmic pH (7.4), the early endosomal pH (6.0), and pKa of histidine side chains (6.0–6.4) to mutate the residues of complementarity-determining regions with histidine. Our engineered Humira (W1-Humira) can bind to TNF alpha in plasma at neutral pH and dissociate from the TNF alpha in the endosome at acidic pH. We used the constant-pH molecular dynamics, Gaussian accelerated molecular dynamics, two-dimensional potential mean force profiles, and in vitro methods to investigate the characteristics of W1-Humira. Our results revealed that the proposed Humira can bind TNF alpha with pH-dependent affinity in vitro. The W1-Humira was weaker than wild-type Humira at neutral pH in vitro, and our prediction results were close to the in vitro results. Furthermore, our approach displayed a high accuracy in antibody pH-dependent binding characteristics prediction, which may facilitate antibody drug design. Advancements in computational methods and computing power may further aid in addressing the challenges in antibody drug design.
Highlights
IntroductionMonoclonal antibodies are the most widely used treatment for autoimmune diseases, malignancies, and infectious diseases [1]
The 2D potential of mean force (PMF) calculations revealed that the protein structures exhibited higher PMF values and that the structures were unstable
Our predicted antibody structures seemed reasonable because our Gaussian accelerated molecular dynamics (GaMD)/Constant pH molecular dynamics (CpHMD) and binding modes analysis simulations were close to the results of in vitro testing
Summary
Monoclonal antibodies are the most widely used treatment for autoimmune diseases, malignancies, and infectious diseases [1]. A monoclonal antibody is limited to binding to an antigen only once. Neonatal Fc receptor (FcRn) receptors can mediate the transcytosis of antibody–antigen complex structures and process them toward degradation pathways [2], reducing the therapeutic effect of antibodies [3]. Humira is a recombinant human IgG1 monoclonal antibody that binds to human TNF alpha and inhibits inflammation [4,5]. Humira is used to treat rheumatoid arthritis, psoriatic arthritis, ankylosing spondylitis, Crohn’s disease, plaque psoriasis, juvenile idiopathic arthritis, ulcerative colitis, and hidradenitis suppurativa [6].
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