Literature DB >> 11152500

Sorting of Marburg virus surface protein and virus release take place at opposite surfaces of infected polarized epithelial cells.

C Sänger1, E Mühlberger, E Ryabchikova, L Kolesnikova, H D Klenk, S Becker.   

Abstract

Marburg virus, a filovirus, causes severe hemorrhagic fever with hitherto poorly understood molecular pathogenesis. We have investigated here the vectorial transport of the surface protein GP of Marburg virus in polarized epithelial cells. To this end, we established an MDCKII cell line that was able to express GP permanently (MDCK-GP). The functional integrity of GP expressed in these cells was analyzed using vesicular stomatitis virus pseudotypes. Further experiments revealed that GP is transported in MDCK-GP cells mainly to the apical membrane and is released exclusively into the culture medium facing the apical membrane. When MDCKII cells were infected with Marburg virus, the majority of GP was also transported to the apical membrane, suggesting that the protein contains an autonomous apical transport signal. Release of infectious progeny virions, however, took place exclusively at the basolateral membrane of the cells. Thus, vectorial budding of Marburg virus is presumably determined by factors other than the surface protein.

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Year:  2001        PMID: 11152500      PMCID: PMC114033          DOI: 10.1128/JVI.75.3.1274-1283.2001

Source DB:  PubMed          Journal:  J Virol        ISSN: 0022-538X            Impact factor:   5.103


  53 in total

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Review 2.  Mechanisms of cell polarity: sorting and transport in epithelial cells.

Authors:  K Matter; I Mellman
Journal:  Curr Opin Cell Biol       Date:  1994-08       Impact factor: 8.382

3.  Outbreak of Ebola hemorrhagic fever--Zaire, 1995.

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4.  Differentiation of filoviruses by electron microscopy.

Authors:  T W Geisbert; P B Jahrling
Journal:  Virus Res       Date:  1995-12       Impact factor: 3.303

5.  Involvement of the mutated M protein in altered budding polarity of a pantropic mutant, F1-R, of Sendai virus.

Authors:  M Tashiro; N L McQueen; J T Seto; H D Klenk; R Rott
Journal:  J Virol       Date:  1996-09       Impact factor: 5.103

6.  Mouse hepatitis virus strain A59 is released from opposite sides of different epithelial cell types.

Authors:  J W Rossen; G J Strous; M C Horzinek; P J Rottier
Journal:  J Gen Virol       Date:  1997-01       Impact factor: 3.891

7.  Foreign glycoproteins expressed from recombinant vesicular stomatitis viruses are incorporated efficiently into virus particles.

Authors:  M J Schnell; L Buonocore; E Kretzschmar; E Johnson; J K Rose
Journal:  Proc Natl Acad Sci U S A       Date:  1996-10-15       Impact factor: 11.205

8.  GP mRNA of Ebola virus is edited by the Ebola virus polymerase and by T7 and vaccinia virus polymerases.

Authors:  V E Volchkov; S Becker; V A Volchkova; V A Ternovoj; A N Kotov; S V Netesov; H D Klenk
Journal:  Virology       Date:  1995-12-20       Impact factor: 3.616

9.  Intracellular transport and processing of the Marburg virus surface protein in vertebrate and insect cells.

Authors:  S Becker; H D Klenk; E Mühlberger
Journal:  Virology       Date:  1996-11-01       Impact factor: 3.616

10.  The virion glycoproteins of Ebola viruses are encoded in two reading frames and are expressed through transcriptional editing.

Authors:  A Sanchez; S G Trappier; B W Mahy; C J Peters; S T Nichol
Journal:  Proc Natl Acad Sci U S A       Date:  1996-04-16       Impact factor: 11.205
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  17 in total

1.  VP40, the matrix protein of Marburg virus, is associated with membranes of the late endosomal compartment.

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2.  VP24 of Marburg virus influences formation of infectious particles.

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3.  Multivesicular bodies as a platform for formation of the Marburg virus envelope.

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Journal:  J Virol       Date:  2004-11       Impact factor: 5.103

4.  Role of the transmembrane domain of marburg virus surface protein GP in assembly of the viral envelope.

Authors:  Eva Mittler; Larissa Kolesnikova; Thomas Strecker; Wolfgang Garten; Stephan Becker
Journal:  J Virol       Date:  2007-01-31       Impact factor: 5.103

5.  Human respiratory syncytial virus glycoproteins are not required for apical targeting and release from polarized epithelial cells.

Authors:  Melissa Batonick; Antonius G P Oomens; Gail W Wertz
Journal:  J Virol       Date:  2008-06-18       Impact factor: 5.103

6.  Apical budding of a recombinant influenza A virus expressing a hemagglutinin protein with a basolateral localization signal.

Authors:  Rosalia Mora; Enrique Rodriguez-Boulan; Peter Palese; Adolfo García-Sastre
Journal:  J Virol       Date:  2002-04       Impact factor: 5.103

Review 7.  Paramyxovirus assembly and budding: building particles that transmit infections.

Authors:  Megan S Harrison; Takemasa Sakaguchi; Anthony P Schmitt
Journal:  Int J Biochem Cell Biol       Date:  2010-04-14       Impact factor: 5.085

8.  Nipah virus entry and egress from polarized epithelial cells.

Authors:  Boris Lamp; Erik Dietzel; Larissa Kolesnikova; Lucie Sauerhering; Stephanie Erbar; Hana Weingartl; Andrea Maisner
Journal:  J Virol       Date:  2013-01-02       Impact factor: 5.103

9.  Chimeric human parainfluenza virus bearing the Ebola virus glycoprotein as the sole surface protein is immunogenic and highly protective against Ebola virus challenge.

Authors:  Alexander Bukreyev; Andrea Marzi; Friederike Feldmann; Liqun Zhang; Lijuan Yang; Jerrold M Ward; David W Dorward; Raymond J Pickles; Brian R Murphy; Heinz Feldmann; Peter L Collins
Journal:  Virology       Date:  2008-11-17       Impact factor: 3.616

Review 10.  Influenza virus morphogenesis and budding.

Authors:  Debi P Nayak; Rilwan A Balogun; Hiroshi Yamada; Z Hong Zhou; Subrata Barman
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