Inhibition of Lassa and Marburg virus production by tetherin
T Sakuma, T Noda, S Urata, Y Kawaoka…�- Journal of�…, 2009 - Am Soc Microbiol
T Sakuma, T Noda, S Urata, Y Kawaoka, J Yasuda
Journal of virology, 2009•Am Soc MicrobiolRecently, tetherin has been identified as an effective cellular factor that prevents the release
of human immunodeficiency virus type 1. Here, we show that the production of virus-like
particles induced by viral matrix proteins of Lassa virus or Marburg virus was markedly
inhibited by tetherin and that N-linked glycosylation of tetherin was dispensable for this
antiviral activity. Our data also suggest that viral matrix proteins or one or more components
that originate from host cells are targets of tetherin but that viral surface glycoproteins are�…
of human immunodeficiency virus type 1. Here, we show that the production of virus-like
particles induced by viral matrix proteins of Lassa virus or Marburg virus was markedly
inhibited by tetherin and that N-linked glycosylation of tetherin was dispensable for this
antiviral activity. Our data also suggest that viral matrix proteins or one or more components
that originate from host cells are targets of tetherin but that viral surface glycoproteins are�…
Abstract
Recently, tetherin has been identified as an effective cellular factor that prevents the release of human immunodeficiency virus type 1. Here, we show that the production of virus-like particles induced by viral matrix proteins of Lassa virus or Marburg virus was markedly inhibited by tetherin and that N-linked glycosylation of tetherin was dispensable for this antiviral activity. Our data also suggest that viral matrix proteins or one or more components that originate from host cells are targets of tetherin but that viral surface glycoproteins are not. These results suggest that tetherin inhibits the release of a wide variety of enveloped viruses from host cells by a common mechanism.
American Society for Microbiology