Enzyme-Based Labeling Strategies for Antibody–Drug Conjugates and Antibody Mimetics

Enzyme-Based Labeling Strategies for Antibody–Drug Conjugates and Antibody Mimetics

Strategies for site-specific modification of proteins have increased in number, complexity, and specificity over the last years. Such modifications hold the promise to broaden the use of existing biopharmaceuticals or to tailor novel proteins for therapeutic or diagnostic applications. The recent qu...

Full description

Bibliographic Details
Main Authors: Georg Falck, Kristian M. Müller
Format: Article
Language:English
Published: MDPI AG 2018-01-01
Series:Antibodies
Subjects:
chemo-enzymatic labeling
armed antibody
antibody coupling
antibody conjugation
Online Access:http://www.mdpi.com/2073-4468/7/1/4
id doaj-3da3f462f84d4127b96d7c0206d84b7e
record_format Article
spelling doaj-3da3f462f84d4127b96d7c0206d84b7e2020-11-25T01:07:43ZengMDPI AGAntibodies2073-44682018-01-0171410.3390/antib7010004antib7010004Enzyme-Based Labeling Strategies for Antibody–Drug Conjugates and Antibody MimeticsGeorg Falck0Kristian M. Müller1Cellular and Molecular Biotechnology, Faculty of Technology, Bielefeld University, Universitätsstr. 25, 33615 Bielefeld, GermanyCellular and Molecular Biotechnology, Faculty of Technology, Bielefeld University, Universitätsstr. 25, 33615 Bielefeld, GermanyStrategies for site-specific modification of proteins have increased in number, complexity, and specificity over the last years. Such modifications hold the promise to broaden the use of existing biopharmaceuticals or to tailor novel proteins for therapeutic or diagnostic applications. The recent quest for next-generation antibody–drug conjugates (ADCs) sparked research into techniques with site selectivity. While purely chemical approaches often impede control of dosage or locus of derivatization, naturally occurring enzymes and proteins bear the ability of co- or post-translational protein modifications at particular residues, thus enabling unique coupling reactions or protein fusions. This review provides a general overview and focuses on chemo-enzymatic methods including enzymes such as formylglycine-generating enzyme, sortase, and transglutaminase. Applications for the conjugation of antibodies and antibody mimetics are reported.http://www.mdpi.com/2073-4468/7/1/4chemo-enzymatic labelingarmed antibodyantibody couplingantibody conjugation
collection DOAJ
language English
format Article
sources DOAJ
author Georg Falck
Kristian M. Müller
spellingShingle Georg Falck
Kristian M. Müller
Enzyme-Based Labeling Strategies for Antibody–Drug Conjugates and Antibody Mimetics
Antibodies
chemo-enzymatic labeling
armed antibody
antibody coupling
antibody conjugation
author_facet Georg Falck
Kristian M. Müller
author_sort Georg Falck
title Enzyme-Based Labeling Strategies for Antibody–Drug Conjugates and Antibody Mimetics
title_short Enzyme-Based Labeling Strategies for Antibody–Drug Conjugates and Antibody Mimetics
title_full Enzyme-Based Labeling Strategies for Antibody–Drug Conjugates and Antibody Mimetics
title_fullStr Enzyme-Based Labeling Strategies for Antibody–Drug Conjugates and Antibody Mimetics
title_full_unstemmed Enzyme-Based Labeling Strategies for Antibody–Drug Conjugates and Antibody Mimetics
title_sort enzyme-based labeling strategies for antibody–drug conjugates and antibody mimetics
publisher MDPI AG
series Antibodies
issn 2073-4468
publishDate 2018-01-01
description Strategies for site-specific modification of proteins have increased in number, complexity, and specificity over the last years. Such modifications hold the promise to broaden the use of existing biopharmaceuticals or to tailor novel proteins for therapeutic or diagnostic applications. The recent quest for next-generation antibody–drug conjugates (ADCs) sparked research into techniques with site selectivity. While purely chemical approaches often impede control of dosage or locus of derivatization, naturally occurring enzymes and proteins bear the ability of co- or post-translational protein modifications at particular residues, thus enabling unique coupling reactions or protein fusions. This review provides a general overview and focuses on chemo-enzymatic methods including enzymes such as formylglycine-generating enzyme, sortase, and transglutaminase. Applications for the conjugation of antibodies and antibody mimetics are reported.
topic chemo-enzymatic labeling
armed antibody
antibody coupling
antibody conjugation
url http://www.mdpi.com/2073-4468/7/1/4
work_keys_str_mv AT georgfalck enzymebasedlabelingstrategiesforantibodydrugconjugatesandantibodymimetics
AT kristianmmuller enzymebasedlabelingstrategiesforantibodydrugconjugatesandantibodymimetics
_version_ 1725185723603091456

Similar Items