Abstract
The surface glycoprotein (GP) of Ebola virus causes many of the virus's pathogenic effects, including a dramatic loss of endothelial cell adhesion associated with widespread hemorrhaging during infection. Although the GP-mediated deadhesion depends on its extracellular mucin-like domain, it is unknown whether any, or all, of this domain's densely clustered O-glycosylation sites are required. It is also unknown whether any of the 20 distinct polypeptide GalNAc-transferases (ppGalNAc-Ts) that initiate mucin-type O-glycosylation in human cells are functionally required. Here, using HEK293 cell lines lacking specific glycosylation enzymes, we demonstrate that GP requires extended O-glycans to exert its deadhesion effect. We also identified ppGalNAc-T1 as largely required for the GP-mediated adhesion defects. Despite its profound effect on GP function, the absence of ppGalNAc-T1 only modestly reduced the O-glycan mass of GP, indicating that even small changes in the bulky glycodomain can cause loss of GP function. Indeed, protein-mapping studies identified a small segment of the mucin-like domain critical for function and revealed that mutation of five glycan acceptor sites within this segment are sufficient to abrogate GP function. Together, these results argue against a mechanism of Ebola GP-induced cell detachment that depends solely on ectodomain bulkiness and identify a single host-derived glycosylation enzyme, ppGalNAc-T1, as a potential target for therapeutic intervention against Ebola virus disease.
Highlights
The surface glycoprotein (GP) of Ebola virus causes many of the virus’s pathogenic effects, including a dramatic loss of endothelial cell adhesion associated with widespread hemorrhaging during infection
The cell culture adhesion effects are a proxy for a key aspect of the complex symptoms seen with human infection. All of these deadhesion effects depend upon the presence of the extracellular mucin-like domain (MLD) of GP [1, 6], which contains dense clusters of sites predicted to be modified by mucintype O-glycosylation [7]
To test the hypothesis that O-glycans are required for GP function, we took advantage of a HEK293 cell line that has been genome edited to block expression of core 1 3GalT-specific molecular chaperone (Cosmc) [11]
Summary
Protein-mapping studies identified a small segment of the mucinlike domain critical for function and revealed that mutation of five glycan acceptor sites within this segment are sufficient to abrogate GP function Together, these results argue against a mechanism of Ebola GP–induced cell detachment that depends solely on ectodomain bulkiness and identify a single host-derived glycosylation enzyme, ppGalNAc-T1, as a potential target for therapeutic intervention against Ebola virus disease. The cell culture adhesion effects are a proxy for a key aspect of the complex symptoms seen with human infection All of these deadhesion effects depend upon the presence of the extracellular mucin-like domain (MLD) of GP [1, 6], which contains dense clusters of sites predicted to be modified by mucintype O-glycosylation [7]. These findings identify a functionally important discrete epitope within the MLD and support targeted inhibition of O-glycosylation as a potential therapeutic goal for treatment of Ebola virus disease
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