Development of a Cytotoxic Antibody-Drug Conjugate Targeting Membrane Immunoglobulin E-Positive Cells.

High numbers of membrane immunoglobulin E (IgE)-positive cells are characteristic of allergic conditions, atopic dermatitis, or IgE myeloma. Antibodies targeting the extracellular membrane-proximal domain of the membranous IgE-B-cell receptor (BCR) fragment can be used for specific depletion of IgE-BCR-positive cells. In this study, we derivatized such an antibody with a toxin and developed an antibody-drug conjugate (ADC) that showed strong cytotoxicity for an IgE-positive target cell line.

Selection of High-Affinity Heterodimeric Antigen-Binding Fc Fragments from a Large Yeast Display Library.

Antigen-binding Fc (Fcab™) fragments, where a novel antigen binding site is introduced by the mutagenesis of the C-terminal loops of the C3 domain, function as parts of bispecific IgG-like symmetrical antibodies when they replace their wild-type Fc. Their homodimeric structure typically leads to bivalent antigen binding. In particular, biological situations monovalent engagement, however, would be preferred, either for avoiding agonistic effects leading to safety issues, or the attractive option of combining a single chain (i.

Bispecific mAb Antibodies Targeting CD59 Enhance the Complement-Dependent Cytotoxicity Mediated by Rituximab.

Inhibition of complement activation via the overexpression of complement-regulatory proteins (CRPs), most notably CD46, CD55 and CD59, is an efficient mechanism of disguise of cancer cells from a host immune system. This phenomenon extends to counteract the potency of therapeutic antibodies that could lyse target cells by eliciting complement cascade. The manifold functions and ubiquitous expression of CRPs preclude their systemic specific inhibition.

Construction of Yeast Display Libraries for Selection of Antigen-Binding Variants of Large Extracellular Loop of CD81, a Major Surface Marker Protein of Extracellular Vesicles.

Over the last two decades, yeast display methodology has served as a popular tool for discovery, humanization, stability improvement, and affinity maturation of antibodies and antibody fragments, but also for development of diverse non-antibody protein scaffolds towards the ability of antigen recognition. Yeast display is particularly well suited for multiparametric analysis of properties of derivatized proteins, allowing the evolution of most diverse protein structures into antigen binding entities with favorable expression, stability, and folding properties. Here we present the methodological basics of a novel yeast display-based approach for the functionalization of the large extracellular loop of CD81 into a de novo antigen binding unit.

Efficient spontaneous site-selective cysteine-mediated toxin attachment within a structural loop of antibodies.

Background: Site-specific coupling of toxin entities to antibodies has become a popular method of synthesis of antibody-drug conjugates (ADCs), as it leads to a homogenous product and allows a free choice of a convenient site for conjugation.

Methods: We introduced a short motif, containing a single cysteine surrounded by aromatic residues, into the N-terminal FG-loop of the C2 domain of two model antibodies, cetuximab and trastuzumab. The extent of conjugation with toxic payload was examined with hydrophobic interaction chromatography and mass spectrometry and the activity of resulting conjugates was tested on antigen-overexpressing cell lines.