High thioredoxin‐1 levels in rheumatoid arthritis patients diminish binding and signalling of the monoclonal antibody Tregalizumab

The humanized non‐depleting anti‐CD4 monoclonal antibody Tregalizumab (BT‐061) is able to selectively activate the suppressive function of regulatory T cells and has been investigated up to phase IIb in clinical trials in patients suffering from rheumatoid arthritis (RA). A pharmacokinetic–pharmacod...

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Published in:Clinical & translational immunology 2016-12, Vol.5 (12), p.e121-n/a
Main Authors: Heim, Katharina, Dälken, Benjamin, Faust, Stefanie, Rharbaoui, Faiza, Engling, Andre, Wallmeier, Holger, Dingermann, Theodor, Radeke, Heinfried H, Schüttrumpf, Jörg, Gutscher, Marcus
Format: Article
Language:English
Subjects:
Antigens
CD4 antigen
Cell surface
Clinical trials
Experiments
Flow cytometry
Glycoproteins
Immunoglobulins
Immunology
Immunoregulation
Lymphocytes
Lymphocytes T
Monoclonal antibodies
Original
Oxidative stress
Oxidoreductase
Pharmacodynamics
Phosphorylation
Protein-tyrosine kinase
Proteins
Rheumatoid arthritis
Signal transduction
Synovial fluid
Thioredoxin
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Summary:The humanized non‐depleting anti‐CD4 monoclonal antibody Tregalizumab (BT‐061) is able to selectively activate the suppressive function of regulatory T cells and has been investigated up to phase IIb in clinical trials in patients suffering from rheumatoid arthritis (RA). A pharmacokinetic–pharmacodynamic model based on clinical data from RA and healthy volunteers, which used the cell surface CD4 downmodulation as marker of activity, confirmed a stronger effect in healthy volunteers compared with RA patients. We tried to understand this phenomenon and evaluated the influence of the small oxidoreductase thioredoxin‐1 (Trx1). To counteract oxidative stress that is strongly associated with RA pathophysiology, the organism employs Trx1. Therefore, increased expression and secretion of Trx1 is found in the synovial fluid and plasma of RA patients. Moreover, the binding site of Tregalizumab is in close proximity to a disulphide bond in domain 2 (D2) of CD4, which is a known target for a reduction by oxidoreductase Trx1. With the experiments reported herein, we demonstrated that specific reduction of the D2 disulphide bond by Trx1 led to diminished binding of Tregalizumab to recombinant human soluble CD4 and membrane‐bound CD4 on T cells. Moreover, we showed that this caused changes in the Tregalizumab‐induced CD4 signalling pathway via the lymphocyte‐specific protein tyrosine kinase p56Lck and CD4 downmodulation. In summary, we provide evidence that high Trx1 levels in RA patients compared with healthy subjects are a potential reason for diminished binding of Tregalizumab to CD4‐positive T cells and offer an explanation for the observed decreased CD4 downmodulation in RA patients in comparison to healthy subjects. Rheumatoid arthritis: An inhospitable environment for immunotherapy A once promising rheumatoid arthritis (RA) drug may be thwarted by physiological conditions in the patients it is intended to treat. Tregalizumab was developed to selectively stimulate certain T cells that can keep RA‐associated inflammation in check, but fared poorly in a recent clinical trial. Researchers led by Marcus Gutscher of German biotech company Biotest AG have identified a possible explanation for this failure. Patients with RA experience tissue damage resulting from a chemical process known as oxidative stress, and their bodies produce a protein called thioredoxin‐1 to fight this stress. However, Gutscher's team showed that thioredoxin‐1 also chemically alters the structure
ISSN:2050-0068
2050-0068
DOI:10.1038/cti.2016.69