Novel method to specifically determine the structures of non-N297 glycans in IgGs.

Monoclonal antibodies comprise a major class of biologic therapeutics and are also extensively studied in immunology. Given the importance of glycans on antibodies, fluorescent labeling of enzymatically released glycans and their LC/MS analysis is routinely used for in-depth characterization of antibody glycosylation. In this technical note, we propose a method for facile characterization of glycans in the variable region of antibodies using sequential enzymatic digests with Endoglycosidase-S2 and RapidTM Peptide-N-Glycosidase-F followed by labeling with a fluorescent dye carrying an NHS-carbamate moiety.

Comprehensive Middle-Down Mass Spectrometry Characterization of an Antibody-Drug Conjugate by Combined Ion Activation Methods.

Antibody-drug conjugates (ADCs) are an increasingly prevalent drug class utilized as chemotherapeutic agents. The complexity of ADCs, including their large size, array of drug conjugation sites, and heterogeneous compositions containing from zero to several payloads, demands the use of advanced analytical characterization methods. Tandem mass spectrometry (MS/MS) strategies, including a variety of bottom-up, middle-down, and even top-down approaches, frequently applied for the analysis of antibodies are increasingly being adapted for antibody-drug conjugates.

2-Aryl-5-carboxytetrazole as a New Photoaffinity Label for Drug Target Identification.

Photoaffinity labels are powerful tools for dissecting ligand-protein interactions, and they have a broad utility in medicinal chemistry and drug discovery. Traditional photoaffinity labels work through nonspecific C-H/X-H bond insertion reactions with the protein of interest by the highly reactive photogenerated intermediate. Herein, we report a new photoaffinity label, 2-aryl-5-carboxytetrazole (ACT), that interacts with the target protein via a unique mechanism in which the photogenerated carboxynitrile imine reacts with a proximal nucleophile near the target active site.