Hydrogen/Deuterium Exchange Mass Spectrometry with Integrated Electrochemical Reduction and Microchip-Enabled Deglycosylation for Epitope Mapping of Heavily Glycosylated and Disulfide-Bonded Proteins.

2021 
Hydrogen/deuterium exchange mass spectrometry (HDX-MS) is a recognized method to study protein conformational dynamics and interactions. Proteins encompassing post-translational modifications (PTMs), such as disulfide bonds and glycosylations, present challenges to HDX-MS, as disulfide bond reduction and deglycosylation is often required to extract HDX information from regions containing these PTMs. In-solution deglycosylation with peptide-N4-(N-acetyl-β-d-glucosaminyl)-asparagine amidase A (PNGase A) or PNGase H+ combined with chemical reduction using tris-(2-carboxyethyl)phosphine (TCEP) has previously been used for HDX-MS analysis of disulfide-linked glycoproteins. However, this workflow requires extensive manual sample preparation and consumes large amounts of enzyme. Furthermore, large amounts of TCEP and glycosidases often result in suboptimal liquid chromatography-mass spectrometry (LC-MS) performance. Here, we compare the in-solution activity of PNGase A, PNGase H+, and the newly discovered PNGase Dj under quench conditions and immobilize them onto thiol-ene microfluidic chips to create HDX-MS-compatible immobilized microfluidic enzyme reactors (IMERs). The IMERS retain deglycosylation activity, also following repeated use and long-term storage. Furthermore, we combine a PNGase Dj IMER, a pepsin IMER, and an electrochemical cell to develop an HDX-MS setup capable of efficient online disulfide-bond reduction, deglycosylation, and proteolysis. We demonstrate the applicability of this setup by mapping the epitope of a monoclonal antibody (mAb) on the heavily disulfide-bonded and glycosylated sema-domain of the tyrosine-protein kinase Met (SD c-Met). We achieve near-complete sequence coverage and extract HDX data to identify regions of SD c-Met involved in mAb binding. The described methodology thus presents an integrated and online workflow for improved HDX-MS analysis of challenging PTM-rich proteins.
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