Hyper-Truncated Glycans Augment the Activity of Neutrophil Granule Myeloperoxidase

Author:

Tjondro Harry C.ORCID,Ugonotti JulianORCID,Kawahara RebecaORCID,Chatterjee SayantaniORCID,Loke IanORCID,Chen SiyunORCID,Soltermann FabianORCID,Hinneburg Hannes,Parker Benjamin L.ORCID,Venkatakrishnan VigneshORCID,Dieckmann RegisORCID,Grant Oliver C.ORCID,Bylund JohanORCID,Rodger AlisonORCID,Woods Robert J.ORCID,Karlsson-Bengtsson AnnaORCID,Struwe Weston B.ORCID,Thaysen-Andersen MortenORCID

Abstract

AbstractMyeloperoxidase (MPO) plays essential roles in neutrophil-mediated immunity via the generation of reactive oxidation products. Complex carbohydrates decorate MPO at discrete sites, but their functional relevance remain elusive. To this end, we have characterised the structure-biosynthesis-activity relationship of neutrophil MPO (nMPO). Mass spectrometry demonstrated that nMPO carries both characteristic under-processed and hyper-truncated glycans. Occlusion of the Asn355/Asn391-glycosylation sites and the Asn323-/Asn483-glycans, located in the MPO dimerisation zone, was found to affect the local glycan processing, thereby providing a molecular basis of the site-specific nMPO glycosylation. Native mass spectrometry, mass photometry, and glycopeptide profiling revealed significant molecular complexity of diprotomeric nMPO arising from heterogeneous glycosylation, oxidation, chlorination and polypeptide truncation variants, and a previously unreported low-abundance monomer. Longitudinal profiling of maturing, mature, granule-separated, and pathogen-stimulated neutrophils demonstrated that nMPO is dynamically expressed during granulopoiesis, unevenly distributed across granules and degranulated upon activation. We also show that proMPO-to-MPO maturation occurs during early/mid-stage granulopoiesis. While similar global MPO glycosylation was observed across conditions, the conserved Asn355-/Asn391-sites displayed elevated glycan hyper-truncation, which correlated with higher enzyme activities of MPO in distinct granule populations. Enzymatic trimming of the Asn355-/Asn391-glycans recapitulated the activity gain and showed that nMPO carrying hyper-truncated glycans at these positions exhibits increased thermal stability, polypeptide accessibility, and ceruloplasmin-mediated inhibition potential relative to native nMPO. Finally, structural modelling revealed that hyper-truncated Asn355-glycans positioned in the MPO-ceruloplasmin interface are critical for uninterrupted inhibition. Here, through an innovative and comprehensive approach, we report novel functional roles of MPO glycans, providing new insight into neutrophil-mediated immunity.SignificanceMyeloperoxidase (MPO) is an important microbicidal glycoprotein critical for fighting pathogens. We report, for the first time, the intriguingly complex relationship between glycobiology and MPO immune function by demonstrating that uncommon and strategically positioned hyper-truncated glycans both elevate the activity and the inhibition potential of this pathogen-combating enzyme. We have used a multifaceted approach employing integrated biomolecular analytics to generate new insights into the sugar code of MPO. The findings described in this study improve our understanding of key innate immune processes and may guide future glycoengineering efforts aiming to generate therapeutically relevant recombinant MPO products with tuneable activity and inhibition potential tailored to biomedical applications involving persisting and severe pathogen infections.

Publisher

Cold Spring Harbor Laboratory

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