TY - JOUR
T1 - Discrepancies between High-Resolution Native and Glycopeptide-Centric Mass Spectrometric Approaches
T2 - A Case Study into the Glycosylation of Erythropoietin Variants
AU - Čaval, Tomislav
AU - Buettner, Alexander
AU - Haberger, Markus
AU - Reusch, Dietmar
AU - Heck, Albert J R
N1 - Funding Information:
We acknowledge support from The Netherlands Organization for Scientific Research (NWO) funding The Netherlands Proteomics Centre through the X-omics Road Map program (project 184.034.019). T.C. and A.J.R.H. acknowledge further support by the NWO TOP-Punt Grant 718.015.003, the Satin Grant 731.017.202, and the ENPPS.LIFT.019.001.
Publisher Copyright:
© 2021 American Society for Mass Spectrometry. Published by American Chemical Society. All rights reserved.
PY - 2021/8/4
Y1 - 2021/8/4
N2 - Glycosylation represents a critical quality attribute modulating a myriad of physiochemical properties and effector functions of biotherapeutics. Furthermore, a rising landscape of glycosylated biotherapeutics including biosimilars, biobetters, and fusion proteins harboring complicated and dynamic glycosylation profiles requires tailored analytical approaches capable of characterizing their heterogeneous nature. In this work, we perform in-depth evaluation of the glycosylation profiles of three glycoengineered variants of the widely used biotherapeutic erythropoietin. We analyzed these samples in parallel using a glycopeptide-centric liquid chromatography/mass spectrometry approach and high-resolution native mass spectrometry. Although for all of the studied variants the glycopeptide and native mass spectrometry data were in good qualitative agreement, we observed substantial quantitative differences arising from ionization deficiencies and unwanted neutral losses, in particular, for sialylated glycopeptides in the glycoproteomics approach. However, the latter provides direct information about glycosite localization. We conclude that the combined parallel use of native mass spectrometry and bottom-up glycoproteomics offers superior characterization of glycosylated biotherapeutics and thus provides a valuable attribute in the characterization of glycoengineered proteins and other complex biotherapeutics.
AB - Glycosylation represents a critical quality attribute modulating a myriad of physiochemical properties and effector functions of biotherapeutics. Furthermore, a rising landscape of glycosylated biotherapeutics including biosimilars, biobetters, and fusion proteins harboring complicated and dynamic glycosylation profiles requires tailored analytical approaches capable of characterizing their heterogeneous nature. In this work, we perform in-depth evaluation of the glycosylation profiles of three glycoengineered variants of the widely used biotherapeutic erythropoietin. We analyzed these samples in parallel using a glycopeptide-centric liquid chromatography/mass spectrometry approach and high-resolution native mass spectrometry. Although for all of the studied variants the glycopeptide and native mass spectrometry data were in good qualitative agreement, we observed substantial quantitative differences arising from ionization deficiencies and unwanted neutral losses, in particular, for sialylated glycopeptides in the glycoproteomics approach. However, the latter provides direct information about glycosite localization. We conclude that the combined parallel use of native mass spectrometry and bottom-up glycoproteomics offers superior characterization of glycosylated biotherapeutics and thus provides a valuable attribute in the characterization of glycoengineered proteins and other complex biotherapeutics.
UR - http://www.scopus.com/inward/record.url?scp=85105100392&partnerID=8YFLogxK
U2 - 10.1021/jasms.1c00060
DO - 10.1021/jasms.1c00060
M3 - Article
C2 - 33856811
SN - 1044-0305
VL - 32
SP - 2099
EP - 2104
JO - Journal of the American Society for Mass Spectrometry
JF - Journal of the American Society for Mass Spectrometry
IS - 8
ER -