Author: Wang, Shiuâ€Mei; Huang, Kuoâ€Jung; Wang, Chinâ€Tien
Title: Severe acute respiratory syndrome coronavirus spike protein counteracts BST2â€mediated restriction of virusâ€like particle release Cord-id: 6950p8i9 Document date: 2019_7_10
ID: 6950p8i9
Snippet: BST2/tetherin, an interferonâ€inducible antiviral factor, can block the cellular release of various enveloped viruses. We previously reported that human coronavirus 229E (HCoVâ€229E) infection can alleviate the BST2 tethering of HIVâ€1 virions by downregulating cell surface BST2, suggesting that coronaviruses are capable of encoding antiâ€BST2 factors. Here we report our new finding that severe acute respiratory syndrome coronavirus (SARSâ€CoV) spike (S) glycoprotein, similar to Vpu, is cap
Document: BST2/tetherin, an interferonâ€inducible antiviral factor, can block the cellular release of various enveloped viruses. We previously reported that human coronavirus 229E (HCoVâ€229E) infection can alleviate the BST2 tethering of HIVâ€1 virions by downregulating cell surface BST2, suggesting that coronaviruses are capable of encoding antiâ€BST2 factors. Here we report our new finding that severe acute respiratory syndrome coronavirus (SARSâ€CoV) spike (S) glycoprotein, similar to Vpu, is capable of antagonizing the BST2 tethering of SARSâ€CoV, HCoVâ€229E, and HIVâ€1 virusâ€like particles via BST2 downregulation. However, unlike Vpu (which downmodulates BST2 by means of proteasomal and lysosomal degradation pathways), BST2 downregulation is apparently mediated by SARSâ€CoV S through the lysosomal degradation pathway only. We found that SARSâ€CoV S colocalized with both BST2 and reduced cell surface BST2, suggesting an association between SARSâ€CoV S and BST2 that targets the lysosomal degradation pathway. According to one recent report, SARSâ€CoV ORF7a antagonizes BST2 by interfering with BST2 glycosylation(1). Our data provide support for the proposal that SARSâ€CoV and other enveloped viruses are capable of evolving supplementary antiâ€BST2 factors in a manner that requires virus replication. Further experiments are required to determine whether the BST2â€mediated restriction of authentic SARSâ€CoV virions is alleviated by the SARSâ€CoV spike protein.
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