Literature detail

Characterization of the receptor-binding domain of Ebola glycoprotein in viral entry.

Jizhen Wang¹ Balaji Manicassamy Michael Caffrey Lijun Rong

Affiliations 1 institutions

Department of Microbiology and Immunology, College of Medicine, University of Illinois at Chicago, USA.

PMID 21667336 2011 Virol Sin eng ppublish

Article

Publication summary

Ebola virus infection causes severe hemorrhagic fever in human and non-human primates with high mortality. Viral entry/infection is initiated by binding of glycoprotein GP protein on Ebola virion to host cells, followed by fusion of virus-cell membrane also mediated by GP. Using an human immunodeficiency virus (HIV)-based pseudotyping system, the roles of 41 Ebola GP1 residues in the receptor-binding domain in viral entry were studied by alanine scanning substitutions. We identified that four residues appear to be involved in protein folding/structure and four residues are important for viral entry. An improved entry interference assay was developed and used to study the role of these residues that are important for viral entry. It was found that R64 and K95 are involved in receptor binding. In contrast, some residues such as I170 are important for viral entry, but do not play a major role in receptor binding as indicated by entry interference assay and/or protein binding data, suggesting that these residues are involved in post-binding steps of viral entry. Furthermore, our results also suggested that Ebola and Marburg viruses share a common cellular molecule for entry.

Virus Internalization Amino Acid Motifs Amino Acid Sequence Cell Line Ebolavirus Hemorrhagic Fever, Ebola Humans Molecular Sequence Data Protein Binding Protein Structure, Tertiary Receptors, Virus Viral Envelope Proteins envelope glycoprotein, Ebola virus

Structured evidence records

Evidence records

1 total

Receptor Usage 1 records

Receptor Usage Extraction confidence 0.98

Key finding

Ebola virus glycoprotein residues R64 and K95 mediate receptor binding, and Ebola and Marburg viruses utilize a common host receptor for cell entry.

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Host

Location

Supporting text

Using an human immunodeficiency virus (HIV)-based pseudotyping system, the roles of 41 Ebola GP1 residues in the receptor-binding domain in viral entry were studied... It was found that R64 and K95 are involved in receptor binding. Furthermore, our results also suggested that Ebola and Marburg viruses share a common cellular molecule for entry.

Method: HIV-based pseudotyping system; entry interference assay
Receptors: common cellular molecule

Citation context

References

51 references

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Evidence overview

Evidence 1

Types 1

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Host 1

Evidence types

Receptor Usage 1

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Publication metadata

Journal: Virologica Sinica
Volume / Issue / Pages: 26 / 3 / 156-70
ISSN: 1995-820X
Journal country: Netherlands
DOI: 10.1007/s12250-011-3194-9