Coronavirus E protein forms ion channels with functionally and structurally-involved membrane lipids

Carmina Verdiá-Báguena; Jose L. Nieto-Torres; Antonio Alcaraz; Marta L. DeDiego; Jaume Torres; Vicente M. Aguilella; Luis Enjuanes

doi:10.1016/j.virol.2012.07.005

Coronavirus E protein forms ion channels with functionally and structurally-involved membrane lipids

Carmina Verdiá-Báguena, Jose L. Nieto-Torres, Antonio Alcaraz, Marta L. DeDiego, Jaume Torres, Vicente M. Aguilella^*, Luis Enjuanes

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

174 Citations (Scopus)

Abstract

Coronavirus (CoV) envelope (E) protein ion channel activity was determined in channels formed in planar lipid bilayers by peptides representing either the transmembrane domain of severe acute respiratory syndrome CoV (SARS-CoV) E protein, or the full-length E protein. Both of them formed a voltage independent ion conductive pore with symmetric ion transport properties. Mutations N15A and V25F located in the transmembrane domain prevented the ion conductivity. E protein derived channels showed no cation preference in non-charged lipid membranes, whereas they behaved as pores with mild cation selectivity in negatively-charged lipid membranes. The ion conductance was also controlled by the lipid composition of the membrane. Lipid charge also regulated the selectivity of a HCoV-229E E protein derived peptide. These results suggested that the lipids are functionally involved in E protein ion channel activity, forming a protein-lipid pore, a novel concept for CoV E protein ion channel entity.

Original language	English
Pages (from-to)	485-494
Number of pages	10
Journal	Virology
Volume	432
Issue number	2
DOIs	https://doi.org/10.1016/j.virol.2012.07.005
Publication status	Published - Oct 25 2012
Externally published	Yes

ASJC Scopus Subject Areas

Virology

Keywords

Coronavirus
Envelope protein
HCoV-229E
Ion channel
Lipid membranes
SARS

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10.1016/j.virol.2012.07.005

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title = "Coronavirus E protein forms ion channels with functionally and structurally-involved membrane lipids",

abstract = "Coronavirus (CoV) envelope (E) protein ion channel activity was determined in channels formed in planar lipid bilayers by peptides representing either the transmembrane domain of severe acute respiratory syndrome CoV (SARS-CoV) E protein, or the full-length E protein. Both of them formed a voltage independent ion conductive pore with symmetric ion transport properties. Mutations N15A and V25F located in the transmembrane domain prevented the ion conductivity. E protein derived channels showed no cation preference in non-charged lipid membranes, whereas they behaved as pores with mild cation selectivity in negatively-charged lipid membranes. The ion conductance was also controlled by the lipid composition of the membrane. Lipid charge also regulated the selectivity of a HCoV-229E E protein derived peptide. These results suggested that the lipids are functionally involved in E protein ion channel activity, forming a protein-lipid pore, a novel concept for CoV E protein ion channel entity.",

keywords = "Coronavirus, Envelope protein, HCoV-229E, Ion channel, Lipid membranes, SARS",

author = "Carmina Verdi{\'a}-B{\'a}guena and Nieto-Torres, \{Jose L.\} and Antonio Alcaraz and DeDiego, \{Marta L.\} and Jaume Torres and Aguilella, \{Vicente M.\} and Luis Enjuanes",

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doi = "10.1016/j.virol.2012.07.005",

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T1 - Coronavirus E protein forms ion channels with functionally and structurally-involved membrane lipids

AU - Verdiá-Báguena, Carmina

AU - Nieto-Torres, Jose L.

AU - Alcaraz, Antonio

AU - DeDiego, Marta L.

AU - Torres, Jaume

AU - Aguilella, Vicente M.

AU - Enjuanes, Luis

PY - 2012/10/25

Y1 - 2012/10/25

N2 - Coronavirus (CoV) envelope (E) protein ion channel activity was determined in channels formed in planar lipid bilayers by peptides representing either the transmembrane domain of severe acute respiratory syndrome CoV (SARS-CoV) E protein, or the full-length E protein. Both of them formed a voltage independent ion conductive pore with symmetric ion transport properties. Mutations N15A and V25F located in the transmembrane domain prevented the ion conductivity. E protein derived channels showed no cation preference in non-charged lipid membranes, whereas they behaved as pores with mild cation selectivity in negatively-charged lipid membranes. The ion conductance was also controlled by the lipid composition of the membrane. Lipid charge also regulated the selectivity of a HCoV-229E E protein derived peptide. These results suggested that the lipids are functionally involved in E protein ion channel activity, forming a protein-lipid pore, a novel concept for CoV E protein ion channel entity.

AB - Coronavirus (CoV) envelope (E) protein ion channel activity was determined in channels formed in planar lipid bilayers by peptides representing either the transmembrane domain of severe acute respiratory syndrome CoV (SARS-CoV) E protein, or the full-length E protein. Both of them formed a voltage independent ion conductive pore with symmetric ion transport properties. Mutations N15A and V25F located in the transmembrane domain prevented the ion conductivity. E protein derived channels showed no cation preference in non-charged lipid membranes, whereas they behaved as pores with mild cation selectivity in negatively-charged lipid membranes. The ion conductance was also controlled by the lipid composition of the membrane. Lipid charge also regulated the selectivity of a HCoV-229E E protein derived peptide. These results suggested that the lipids are functionally involved in E protein ion channel activity, forming a protein-lipid pore, a novel concept for CoV E protein ion channel entity.

KW - Coronavirus

KW - Envelope protein

KW - HCoV-229E

KW - Ion channel

KW - Lipid membranes

KW - SARS

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JF - Virology

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ER -

Coronavirus E protein forms ion channels with functionally and structurally-involved membrane lipids

Abstract

ASJC Scopus Subject Areas

Keywords

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