Glycosylation-dependent enhanced cell-binding and infectivity through DC-SIGN in the West African Ebola virus Makona

Lasala, Fátima; Luczkowiak, Joanna; Kremer, Leonor; Casasnovas, José M.; Delgado, Rafaël

doi:10.1101/630269

2019

DOI: 10.1101/630269

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Glycosylation-dependent enhanced cell-binding and infectivity through DC-SIGN in the West African Ebola virus Makona

Fátima Lasala

Joanna Luczkowiak

Leonor Kremer

et al.

Abstract: Since its discovery in Zaire in 1976, most ebolavirus outbreaks described occurred mainly in remote and poorly communicated areas of Central Africa and affected a limited number of individuals. Nonetheless, the Ebola epidemic that began in West Africa at the end of 2013 spread rapidly and reached an unprecedented scale. This epidemic was caused by the Makona variant of Zaire ebolavirus (EBOV). Monitoring of the EBOV Makona evolution throughout the epidemic identified the A82V substitution in the EBOV glycoprot… Show more

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Glycan shield of the ebolavirus envelope glycoprotein GP

et al. 2022

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The envelope glycoprotein GP of the ebolaviruses is essential for host cell entry and the primary target of the host antibody response. GP is heavily glycosylated with up to 17 N-linked sites, numerous O-linked glycans in its disordered mucin-like domain (MLD), and three predicted C-linked mannosylation sites. Glycosylation is important for host cell attachment, GP stability and fusion activity, and shielding from neutralization by serum antibodies. Here, we use glycoproteomics to profile the site-specific glycosylation patterns of ebolavirus GP. We detect up to 16 unique O-linked glycosylation sites in the MLD, and two O-linked sites in the receptor-binding GP1 subunit. Multiple O-linked glycans are observed within N-linked glycosylation sequons, suggesting crosstalk between the two types of modifications. We confirmed C-mannosylation of W288 in full-length trimeric GP. We find complex glycosylation at the majority of N-linked sites, while the conserved sites N257 and especially N563 are enriched in unprocessed glycans, suggesting a role in host-cell attachment via DC-SIGN/L-SIGN. Our findings illustrate how N-, O-, and C-linked glycans together build the heterogeneous glycan shield of GP, guiding future immunological studies and functional interpretation of ebolavirus GP-antibody interactions.

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Glycan shield of the ebolavirus envelope glycoprotein GP

et al. 2022

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Glycosylation-dependent enhanced cell-binding and infectivity through DC-SIGN in the West African Ebola virus Makona

Cited by 1 publication

References 45 publications

Glycan shield of the ebolavirus envelope glycoprotein GP

Glycan shield of the ebolavirus envelope glycoprotein GP

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