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A mirror code for protein-cholesterol interactions in the two leaflets of biological membranes

A mirror code for protein-cholesterol interactions in the two leaflets of biological membranes
A mirror code for protein-cholesterol interactions in the two leaflets of biological membranes
Cholesterol controls the activity of a wide range of membrane receptors through specific interactions and identifying cholesterol recognition motifs is therefore critical for understanding signaling receptor function. The membrane-spanning domains of the paradigm neurotransmitter receptor for acetylcholine (AChR) display a series of cholesterol consensus domains (referred to as “CARC”). Here we use a combination of molecular modeling, lipid monolayer/mutational approaches and NMR spectroscopy to study the binding of cholesterol to a synthetic CARC peptide. The CARC-cholesterol interaction is of high affinity, lipid-specific, concentration-dependent, and sensitive to single-point mutations. The CARC motif is generally located in the outer membrane leaflet and its reverse sequence CRAC in the inner one. Their simultaneous presence within the same transmembrane domain obeys a “mirror code” controlling protein-cholesterol interactions in the outer and inner membrane leaflets. Deciphering this code enabled us to elaborate guidelines for the detection of cholesterol-binding motifs in any membrane protein. Several representative examples of neurotransmitter receptors and ABC transporters with the dual CARC/CRAC motifs are presented. The biological significance and potential clinical applications of the mirror code are discussed.
1-14
Fantini, Jacques
dba30c1b-536b-460b-aaba-b7ef2d174c61
Di Scala, Coralie
2232e01f-0344-43d1-8ee5-3b05c7a11c49
Evans, Luke S.
c888a996-eb12-4e6b-9c2b-e6cda907674a
Williamson, Philip T.F.
0b7715c6-b60e-4e95-a1b1-6afc8b9f372a
Barrantes, Francisco J.
e51a66c4-1f8f-429b-b1f4-9e8e191a33b6
Fantini, Jacques
dba30c1b-536b-460b-aaba-b7ef2d174c61
Di Scala, Coralie
2232e01f-0344-43d1-8ee5-3b05c7a11c49
Evans, Luke S.
c888a996-eb12-4e6b-9c2b-e6cda907674a
Williamson, Philip T.F.
0b7715c6-b60e-4e95-a1b1-6afc8b9f372a
Barrantes, Francisco J.
e51a66c4-1f8f-429b-b1f4-9e8e191a33b6

Fantini, Jacques, Di Scala, Coralie, Evans, Luke S., Williamson, Philip T.F. and Barrantes, Francisco J. (2016) A mirror code for protein-cholesterol interactions in the two leaflets of biological membranes. Scientific Reports, 6, 1-14, [21907]. (doi:10.1038/srep21907). (PMID:26915987)

Record type: Article

Abstract

Cholesterol controls the activity of a wide range of membrane receptors through specific interactions and identifying cholesterol recognition motifs is therefore critical for understanding signaling receptor function. The membrane-spanning domains of the paradigm neurotransmitter receptor for acetylcholine (AChR) display a series of cholesterol consensus domains (referred to as “CARC”). Here we use a combination of molecular modeling, lipid monolayer/mutational approaches and NMR spectroscopy to study the binding of cholesterol to a synthetic CARC peptide. The CARC-cholesterol interaction is of high affinity, lipid-specific, concentration-dependent, and sensitive to single-point mutations. The CARC motif is generally located in the outer membrane leaflet and its reverse sequence CRAC in the inner one. Their simultaneous presence within the same transmembrane domain obeys a “mirror code” controlling protein-cholesterol interactions in the outer and inner membrane leaflets. Deciphering this code enabled us to elaborate guidelines for the detection of cholesterol-binding motifs in any membrane protein. Several representative examples of neurotransmitter receptors and ABC transporters with the dual CARC/CRAC motifs are presented. The biological significance and potential clinical applications of the mirror code are discussed.

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Accepted/In Press date: 29 January 2016
Published date: 26 February 2016
Organisations: Molecular and Cellular

Identifiers

Local EPrints ID: 389360
URI: http://eprints.soton.ac.uk/id/eprint/389360
DOI: doi:10.1038/srep21907
PURE UUID: 03b4f177-fc48-4fa3-9628-b3b47fa8d1ed
ORCID for Philip T.F. Williamson: ORCID iD orcid.org/0000-0002-0231-8640

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Date deposited: 07 Mar 2016 09:50
Last modified: 15 Mar 2024 03:27

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Contributors

Author: Jacques Fantini
Author: Coralie Di Scala
Author: Luke S. Evans
Author: Philip T.F. Williamson ORCID iD
Author: Francisco J. Barrantes

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