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Cytidine monophosphate N-acetylneuraminic acid synthetase and solute carrier family 35 member A1 are required for reovirus binding and infection
Link to bioRxiv paper:
http://biorxiv.org/cgi/content/short/2020.08.03.235572v1?rss=1
Authors: Urbanek, K., Sutherland, D. M., Orchard, R. C., Wilen, C. B., Knowlton, J. J., Aravamudhan, P., Taylor, G. M., Virgin, H. W., Dermody, T. S.
Abstract:
Engagement of cell-surface receptors by viruses is a critical determinant of viral tropism and disease. The reovirus attachment protein, {sigma}1, binds sialylated glycans and proteinaceous receptors to mediate infection, but the specific requirements on different cell types are unknown. To identify host factors required for reovirus-induced cell death, we conducted a CRISPR-knockout screen targeting over 20,000 genes in murine microglial BV2 cells. Candidate genes identified as required for reovirus to cause cell death were highly enriched for sialic acid synthesis and transport. Two of the top candidates identified, cytidine monophosphate N-acetylneuraminic acid synthetase (Cmas) and solute carrier family 35 member A1 (Slc35a1), promote sialic acid expression on the cell surface. Two reovirus strains differing in the capacity to bind sialic acid, T3SA+ and T3SA-, were used to evaluate Cmas and Slc35a1 as potential host genes required for infection. Following CRISPR-Cas9 disruption of either gene, cell-surface expression of sialic acid was diminished. These results correlated with decreased binding of strain T3SA+, which is capable of engaging sialic acid. Disruption of either gene did not alter the low-level binding of T3SA-, which does not engage sialic acid. Infectivity of T3SA+ was diminished to levels of T3SA- in cells lacking Cmas and Slc35a1 by CRISPR ablation. However, exogenous expression of Cmas and Slc35a1 into the respective null cells restored sialic acid expression and T3SA+ binding and infectivity. These results demonstrate that Cmas and Slc35a1, which mediate cell-surface expression of sialic acid, are required in murine microglial cells for efficient reovirus binding and infection.
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Link to bioRxiv paper:
http://biorxiv.org/cgi/content/short/2020.08.03.235572v1?rss=1
Authors: Urbanek, K., Sutherland, D. M., Orchard, R. C., Wilen, C. B., Knowlton, J. J., Aravamudhan, P., Taylor, G. M., Virgin, H. W., Dermody, T. S.
Abstract:
Engagement of cell-surface receptors by viruses is a critical determinant of viral tropism and disease. The reovirus attachment protein, {sigma}1, binds sialylated glycans and proteinaceous receptors to mediate infection, but the specific requirements on different cell types are unknown. To identify host factors required for reovirus-induced cell death, we conducted a CRISPR-knockout screen targeting over 20,000 genes in murine microglial BV2 cells. Candidate genes identified as required for reovirus to cause cell death were highly enriched for sialic acid synthesis and transport. Two of the top candidates identified, cytidine monophosphate N-acetylneuraminic acid synthetase (Cmas) and solute carrier family 35 member A1 (Slc35a1), promote sialic acid expression on the cell surface. Two reovirus strains differing in the capacity to bind sialic acid, T3SA+ and T3SA-, were used to evaluate Cmas and Slc35a1 as potential host genes required for infection. Following CRISPR-Cas9 disruption of either gene, cell-surface expression of sialic acid was diminished. These results correlated with decreased binding of strain T3SA+, which is capable of engaging sialic acid. Disruption of either gene did not alter the low-level binding of T3SA-, which does not engage sialic acid. Infectivity of T3SA+ was diminished to levels of T3SA- in cells lacking Cmas and Slc35a1 by CRISPR ablation. However, exogenous expression of Cmas and Slc35a1 into the respective null cells restored sialic acid expression and T3SA+ binding and infectivity. These results demonstrate that Cmas and Slc35a1, which mediate cell-surface expression of sialic acid, are required in murine microglial cells for efficient reovirus binding and infection.
Copy rights belong to original authors. Visit the link for more info