Oligomerization and polymerization of the filovirus matrix protein VP40

The matrix protein VP40 from Ebola virus plays an important role in the assembly process of virus particles by interacting with cellular factors, cellular membranes, and the ribonuclearprotein particle complex. Here we show that the N-terminal domain of VP40 folds into a mixture of two different oli...

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Published inVirology (New York, N.Y.) Vol. 312; no. 2; pp. 359 - 368
Main Authors Timmins, Joanna, Schoehn, Guy, Kohlhaas, Christine, Klenk, Hans-Dieter, Ruigrok, Rob W.H, Weissenhorn, Winfríed
Format Journal Article
LanguageEnglish
Published United States Elsevier Inc 01.08.2003
Subjects
Ebola virus
Ebolavirus - chemistry
Ebolavirus - metabolism
Filovirus
Gene Expression Regulation, Viral
Marburg virus
Models, Molecular
Nucleoproteins - chemistry
Nucleoproteins - metabolism
Oligomerization
Protein Conformation
Protein Folding
Static Electricity
Viral Core Proteins - chemistry
Viral Core Proteins - metabolism
Virus assembly
VP40
Ebola virus
Oligomerization
Virus assembly
Filovirus
Marburg virus
VP40
Online AccessGet full text

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Abstract The matrix protein VP40 from Ebola virus plays an important role in the assembly process of virus particles by interacting with cellular factors, cellular membranes, and the ribonuclearprotein particle complex. Here we show that the N-terminal domain of VP40 folds into a mixture of two different oligomeric states in vitro, namely hexameric and octameric ringlike structures, as detected by gel filtration chromatography, chemical cross-linking, and electron microscopy. Octamer formation depends largely on the interaction with nucleic acids, which in turn confers in vitro SDS resistance. Refolding experiments with a nucleic acid free N-terminal domain preparation reveal a mostly dimeric form of VP40, which is transformed into an SDS resistant octamer upon incubation with E. coli nucleic acids. In addition, we demonstrate that the N-terminal domain of Marburg virus VP40 also folds into ringlike structures, similar to Ebola virus VP40. Interestingly, Marburg virus VP40 rings reveal a high tendency to polymerize into rods composed of stacked rings. These results may suggest distinct roles for different oligomeric forms of VP40 in the filovirus life cycle.
AbstractList The matrix protein VP40 from Ebola virus plays an important role in the assembly process of virus particles by interacting with cellular factors, cellular membranes, and the ribonuclearprotein particle complex. Here we show that the N-terminal domain of VP40 folds into a mixture of two different oligomeric states in vitro, namely hexameric and octameric ringlike structures, as detected by gel filtration chromatography, chemical cross-linking, and electron microscopy. Octamer formation depends largely on the interaction with nucleic acids, which in turn confers in vitro SDS resistance. Refolding experiments with a nucleic acid free N-terminal domain preparation reveal a mostly dimeric form of VP40, which is transformed into an SDS resistant octamer upon incubation with E. coli nucleic acids. In addition, we demonstrate that the N-terminal domain of Marburg virus VP40 also folds into ringlike structures, similar to Ebola virus VP40. Interestingly, Marburg virus VP40 rings reveal a high tendency to polymerize into rods composed of stacked rings. These results may suggest distinct roles for different oligomeric forms of VP40 in the filovirus life cycle.
The matrix protein VP40 from Ebola virus plays an important role in the assembly process of virus particles by interacting with cellular factors, cellular membranes, and the ribonuclearprotein particle complex. Here we show that the N-terminal domain of VP40 folds into a mixture of two different oligomeric states in vitro, namely hexameric and octameric ringlike structures, as detected by gel filtration chromatography, chemical cross-linking, and electron microscopy. Octamer formation depends largely on the interaction with nucleic acids, which in turn confers in vitro SDS resistance. Refolding experiments with a nucleic acid free N-terminal domain preparation reveal a mostly dimeric form of VP40, which is transformed into an SDS resistant octamer upon incubation with E. coli nucleic acids. In addition, we demonstrate that the N-terminal domain of Marburg virus VP40 also folds into ringlike structures, similar to Ebola virus VP40. Interestingly, Marburg virus VP40 rings reveal a high tendency to polymerize into rods composed of stacked rings. These results may suggest distinct roles for different oligomeric forms of VP40 in the filovirus life cycle.
Author Schoehn, Guy
Ruigrok, Rob W.H
Kohlhaas, Christine
Timmins, Joanna
Klenk, Hans-Dieter
Weissenhorn, Winfríed
Author_xml – sequence: 1
  givenname: Joanna
  surname: Timmins
  fullname: Timmins, Joanna
  organization: European Molecular Biology Laboratory (EMBL), 6 rue Jules Horowitz, 38042 Grenoble, France
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  givenname: Guy
  surname: Schoehn
  fullname: Schoehn, Guy
  organization: European Molecular Biology Laboratory (EMBL), 6 rue Jules Horowitz, 38042 Grenoble, France
– sequence: 3
  givenname: Christine
  surname: Kohlhaas
  fullname: Kohlhaas, Christine
  organization: European Molecular Biology Laboratory (EMBL), 6 rue Jules Horowitz, 38042 Grenoble, France
– sequence: 4
  givenname: Hans-Dieter
  surname: Klenk
  fullname: Klenk, Hans-Dieter
  organization: Institut für Virologie, Robert-Koch-Strasse 17, 35037-Marburg, Germany
– sequence: 5
  givenname: Rob W.H
  surname: Ruigrok
  fullname: Ruigrok, Rob W.H
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  givenname: Winfríed
  surname: Weissenhorn
  fullname: Weissenhorn, Winfríed
  email: weissen@embl-grenoble.fr
  organization: European Molecular Biology Laboratory (EMBL), 6 rue Jules Horowitz, 38042 Grenoble, France
BackLink https://www.ncbi.nlm.nih.gov/pubmed/12919741$$D View this record in MEDLINE/PubMed
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Issue 2
Keywords Ebola virus
Oligomerization
Virus assembly
Filovirus
Marburg virus
VP40
Language English
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Snippet The matrix protein VP40 from Ebola virus plays an important role in the assembly process of virus particles by interacting with cellular factors, cellular...
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SubjectTerms Ebola virus
Ebolavirus - chemistry
Ebolavirus - metabolism
Filovirus
Gene Expression Regulation, Viral
Marburg virus
Models, Molecular
Nucleoproteins - chemistry
Nucleoproteins - metabolism
Oligomerization
Protein Conformation
Protein Folding
Static Electricity
Viral Core Proteins - chemistry
Viral Core Proteins - metabolism
Virus assembly
VP40
Title Oligomerization and polymerization of the filovirus matrix protein VP40
URI https://dx.doi.org/10.1016/S0042-6822(03)00260-5
https://www.ncbi.nlm.nih.gov/pubmed/12919741
https://search.proquest.com/docview/18871642
https://search.proquest.com/docview/73558166
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