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Investigating the clearance of VWF A-domains using site-directed PEGylation and novel N-linked glycosylation

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posted on 2022-07-26, 15:55 authored by Judicael Fazavana, Teresa M Brophy, Alain Chion, Niamh Cooke, Virginie Terraube, Justin Cohen, Chuenlei Parng, Debra Pittman, Orla Cunningham, Matthew Lambert, James O'DonnellJames O'Donnell, Jamie O'SullivanJamie O'Sullivan

Background: Previous studies have demonstrated that the A1A2A3 domains of von Willebrand factor (VWF) play a key role in regulating macrophage-mediated clearance in vivo. In particular, the A1-domain has been shown to modulate interaction with macrophage low-density lipoprotein receptor-related protein-1 (LRP1) clearance receptor. Furthermore, N-linked glycans within the A2-domain have been shown to protect VWF against premature LRP1-mediated clearance. Importantly, however, the specific regions within A1A2A3 that enable macrophage binding have not been defined.

Objective and methods: To address this, we utilized site-directed PEGylation and introduced novel targeted N-linked glycosylation within A1A2A3-VWF and subsequently examined VWF clearance.

Results: Conjugation with a 40-kDa polyethylene glycol (PEG) moiety significantly extended the half-life of A1A2A3-VWF in VWF-/- mice in a site-specific manner. For example, PEGylation at specific sites within the A1-domain (S1286) and A3-domain (V1803, S1807) attenuated VWF clearance in vivo, compared to wild-type A1A2A3-VWF. Furthermore, PEGylation at these specific sites ablated binding to differentiated THP-1 macrophages and LRP1 cluster II and cluster IV in-vitro. Conversely, PEGylation at other positions (Q1353-A1-domain and M1545-A2-domain) had limited effects on VWF clearance or binding to LRP1.Novel N-linked glycan chains were introduced at N1803 and N1807 in the A3-domain. In contrast to PEGylation at these sites, no significant extension in half-life was observed with these N-glycan variants.

Conclusions: These novel data demonstrate that site specific PEGylation but not site specific N-glycosylation modifies LRP1-dependent uptake of the A1A2A3-VWF by macrophages. This suggests that PEGylation, within the A1- and A3-domains in particular, may be used to attenuate LRP1-mediated clearance of VWF.

History

Comments

This is the peer reviewed version of the following article:, Fazavana J. et al. Investigating the clearance of VWF A-domains using site-directed PEGylation and novel N-linked glycosylation. J Thromb Haemost. 2020;18(6):1278-1290, which has been published in final form at https://doi.org/10.1111/jth.14785 This article may be used for non-commercial purposes in accordance with Wiley Terms and Conditions for Self-Archiving.

Published Citation

Fazavana J. et al. Investigating the clearance of VWF A-domains using site-directed PEGylation and novel N-linked glycosylation. J Thromb Haemost. 2020;18(6):1278-1290

Publication Date

28 February 2020

PubMed ID

32108991

Department/Unit

  • Irish Centre for Vascular Biology
  • School of Pharmacy and Biomolecular Sciences

Research Area

  • Vascular Biology
  • Health Professions Education
  • Cancer
  • Immunity, Infection and Inflammation

Publisher

Wiley

Version

  • Accepted Version (Postprint)