Emma von Witting scite author profile

Antibodies are widely used reagents for recognition in both clinic and research laboratories all over the world. For many applications, antibodies are labeled through conjugation to different reporter molecules or therapeutic agents. Traditionally, antibodies are covalently conjugated to reporter molecules via primary amines on lysines or thiols on cysteines. While efficient, such labeling is variable and nonstoichiometric and may affect an antibody's binding to its target. Moreover, an emerging field for therapeutics is antibody-drug conjugates, where a toxin or drug is conjugated to an antibody in order to increase or incorporate a therapeutic effect. It has been shown that homogeneity and controlled conjugation are crucial in these therapeutic applications. Here we present two novel protein domains developed from an IgG-binding domain of Streptococcal Protein G. These domains show obligate Fab binding and can be used for site-specific and covalent attachment exclusively to the constant part of the Fab fragment of an antibody. The two different domains can covalently label IgG of mouse and human descent. The labeled antibodies were shown to be functional in both an ELISA and in an NK-cell antibody-dependent cellular cytotoxicity assay. These engineered protein domains provide novel tools for controlled labeling of Fab fragments and full-length IgG.

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Affinity-Based Methods for Site-Specific Conjugation of Antibodies

Witting

Hober

Kanje

2021

Bioconjugate Chem.

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Conjugation of various reagents to antibodies has long been an elegant way to combine the superior binding features of the antibody with other desired but non-natural functions. Applications range from labels for detection in different analytical assays to the creation of new drugs by conjugation to molecules which improves the pharmaceutical effect. In many of these applications, it has been proven advantageous to control both the site and the stoichiometry of the conjugation to achieve a homogeneous product with predictable, and often also improved, characteristics. For this purpose, many research groups have, during the latest decade, reported novel methods and techniques, based on small molecules, peptides, and proteins with inherent affinity for the antibody, for site-specific conjugation of antibodies. This review provides a comprehensive overview of these methods and their applications and also describes a historical perspective of the field.

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Selection of the optimal macrocyclic chelators for labeling with 111In and 68Ga improves contrast of HER2 imaging using engineered scaffold protein ADAPT6

Witting

Garousi

Lindbo

et al. 2019

European Journal of Pharmaceutics and Biopharmaceutics

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Comparative evaluation of dimeric and monomeric forms of ADAPT scaffold protein for targeting of HER2-expressing tumours

Garousi

Lindbo

Borin

et al. 2019

European Journal of Pharmaceutics and Biopharmaceutics

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Emma von Witting

Phase I Study of ^99mTc-ADAPT6, a Scaffold Protein–Based Probe for Visualization of HER2 Expression in Breast Cancer

Site-Specific Photolabeling of the IgG Fab Fragment Using a Small Protein G Derived Domain

Affinity-Based Methods for Site-Specific Conjugation of Antibodies

Selection of the optimal macrocyclic chelators for labeling with 111In and 68Ga improves contrast of HER2 imaging using engineered scaffold protein ADAPT6

Comparative evaluation of dimeric and monomeric forms of ADAPT scaffold protein for targeting of HER2-expressing tumours

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Emma von Witting

Phase I Study of 99mTc-ADAPT6, a Scaffold Protein–Based Probe for Visualization of HER2 Expression in Breast Cancer

Site-Specific Photolabeling of the IgG Fab Fragment Using a Small Protein G Derived Domain

Affinity-Based Methods for Site-Specific Conjugation of Antibodies

Selection of the optimal macrocyclic chelators for labeling with 111In and 68Ga improves contrast of HER2 imaging using engineered scaffold protein ADAPT6

Comparative evaluation of dimeric and monomeric forms of ADAPT scaffold protein for targeting of HER2-expressing tumours

Contact Info

Product

Resources

About

Phase I Study of ^99mTc-ADAPT6, a Scaffold Protein–Based Probe for Visualization of HER2 Expression in Breast Cancer