Nunes-Santos CJ, Kuehn HS, Rosenzweig SD

In 2014, we reported two siblings with a rare congenital disorder of glycosylation due to mutations in mannosyl-oligosaccharide glucosidase (MOGS). The glycan alteration derived from this disease resulted in an in vitro infection resistance to particular enveloped, N-glycosylation-dependent viruses as influenza and HIV. As part of the global effort to find ...

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safe and effective antiviral therapies for Covid-19, we assessed the in vitro activity of the FDA-approved ?-glucosidase inhibitor miglustat against SARS-CoV-2. Expression plasmids encoding SARS-CoV-2 spike (S) and human ACE2 glycoproteins (GP) were tested to evaluate N-glycan modifications induced by ?-glucosidase inhibition. Immunoprecipitation was used to assess binding between these two GP. Cell-to-cell fusion was assessed by immunofluorescence of cocultures of SARS-CoV-2 S and ACE2-expressing cells. Miglustat effect on immune response was tested by measuring cytokine release from PBMC exposed to purified SARS-CoV-2 S. In our overexpression system, miglustat successfully and specifically modified N-glycans in both SARS-CoV-2 S and its main receptor ACE2. Binding between these two GP was not affected by glycan modifications. A surrogate marker for viral cytopathic effect, measured as receptor-dependent SARS-CoV-2 S-driven cell-to-cell fusion, was not disrupted by miglustat treatment. This observation was further confirmed in MOGS-null transfected cells. Miglustat produced no statistically significant effects on cytokine production following SARS-CoV-2 S glycoprotein stimulation of PBMC. Our work shows that despite clear N-glycan alteration in the presence of miglustat, the functions of the Covid-19-related glycoproteins studied were not affected, making it unlikely that miglustat can change the natural course of the disease.

Date: Feb. 01, 2021

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