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A short amphipathic alpha helix in scavenger receptor BI facilitates bidirectional HDL-cholesterol transport

During reverse cholesterol transport, high-density lipoprotein (HDL) carries excess cholesterol from peripheral cells to the liver for excretion in bile. The first and last steps of this pathway involve the HDL receptor, scavenger receptor BI (SR-BI). While the mechanism of SR-BI-mediated cholestero...

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Autores principales: May, Sarah C., Sahoo, Daisy
Formato: Online Artículo Texto
Lenguaje:English
Publicado: American Society for Biochemistry and Molecular Biology 2022
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9436806/
https://www.ncbi.nlm.nih.gov/pubmed/35926711
http://dx.doi.org/10.1016/j.jbc.2022.102333
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author May, Sarah C.
Sahoo, Daisy
author_facet May, Sarah C.
Sahoo, Daisy
author_sort May, Sarah C.
collection PubMed
description During reverse cholesterol transport, high-density lipoprotein (HDL) carries excess cholesterol from peripheral cells to the liver for excretion in bile. The first and last steps of this pathway involve the HDL receptor, scavenger receptor BI (SR-BI). While the mechanism of SR-BI-mediated cholesterol transport has not yet been established, it has long been suspected that cholesterol traverses through a hydrophobic tunnel in SR-BI’s extracellular domain. Confirmation of a hydrophobic tunnel is hindered by the lack of a full-length SR-BI structure. Part of SR-BI’s structure has been resolved, encompassing residues 405 to 475, which includes the C-terminal transmembrane domain and its adjacent extracellular region. Within the extracellular segment is an amphipathic helix (residues 427–436, referred to as AH(427–436)) that showed increased protection from solvent in NMR-based studies. Homology models predict that hydrophobic residues in AH(427–436) line a core cavity in SR-BI’s extracellular region that may facilitate cholesterol transport. Therefore, we hypothesized that hydrophobic residues in AH(427–436) are required for HDL cholesterol transport. Here, we tested this hypothesis by mutating individual residues along AH(427–436) to a charged residue (aspartic acid), transiently transfecting COS-7 cells with plasmids encoding wild-type and mutant SR-BI, and performing functional analyses. We found that mutating hydrophobic, but not hydrophilic, residues in AH(427–436) impaired SR-BI bidirectional cholesterol transport. Mutating phenylalanine-430 was particularly detrimental to SR-BI’s functions, suggesting that this residue may facilitate important interactions for cholesterol delivery within the hydrophobic tunnel. Our results support the hypothesis that a hydrophobic tunnel within SR-BI mediates cholesterol transport.
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spelling pubmed-94368062022-09-09 A short amphipathic alpha helix in scavenger receptor BI facilitates bidirectional HDL-cholesterol transport May, Sarah C. Sahoo, Daisy J Biol Chem Research Article During reverse cholesterol transport, high-density lipoprotein (HDL) carries excess cholesterol from peripheral cells to the liver for excretion in bile. The first and last steps of this pathway involve the HDL receptor, scavenger receptor BI (SR-BI). While the mechanism of SR-BI-mediated cholesterol transport has not yet been established, it has long been suspected that cholesterol traverses through a hydrophobic tunnel in SR-BI’s extracellular domain. Confirmation of a hydrophobic tunnel is hindered by the lack of a full-length SR-BI structure. Part of SR-BI’s structure has been resolved, encompassing residues 405 to 475, which includes the C-terminal transmembrane domain and its adjacent extracellular region. Within the extracellular segment is an amphipathic helix (residues 427–436, referred to as AH(427–436)) that showed increased protection from solvent in NMR-based studies. Homology models predict that hydrophobic residues in AH(427–436) line a core cavity in SR-BI’s extracellular region that may facilitate cholesterol transport. Therefore, we hypothesized that hydrophobic residues in AH(427–436) are required for HDL cholesterol transport. Here, we tested this hypothesis by mutating individual residues along AH(427–436) to a charged residue (aspartic acid), transiently transfecting COS-7 cells with plasmids encoding wild-type and mutant SR-BI, and performing functional analyses. We found that mutating hydrophobic, but not hydrophilic, residues in AH(427–436) impaired SR-BI bidirectional cholesterol transport. Mutating phenylalanine-430 was particularly detrimental to SR-BI’s functions, suggesting that this residue may facilitate important interactions for cholesterol delivery within the hydrophobic tunnel. Our results support the hypothesis that a hydrophobic tunnel within SR-BI mediates cholesterol transport. American Society for Biochemistry and Molecular Biology 2022-08-01 /pmc/articles/PMC9436806/ /pubmed/35926711 http://dx.doi.org/10.1016/j.jbc.2022.102333 Text en © 2022 The Authors https://creativecommons.org/licenses/by/4.0/This is an open access article under the CC BY license (http://creativecommons.org/licenses/by/4.0/).
spellingShingle Research Article
May, Sarah C.
Sahoo, Daisy
A short amphipathic alpha helix in scavenger receptor BI facilitates bidirectional HDL-cholesterol transport
title A short amphipathic alpha helix in scavenger receptor BI facilitates bidirectional HDL-cholesterol transport
title_full A short amphipathic alpha helix in scavenger receptor BI facilitates bidirectional HDL-cholesterol transport
title_fullStr A short amphipathic alpha helix in scavenger receptor BI facilitates bidirectional HDL-cholesterol transport
title_full_unstemmed A short amphipathic alpha helix in scavenger receptor BI facilitates bidirectional HDL-cholesterol transport
title_short A short amphipathic alpha helix in scavenger receptor BI facilitates bidirectional HDL-cholesterol transport
title_sort short amphipathic alpha helix in scavenger receptor bi facilitates bidirectional hdl-cholesterol transport
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9436806/
https://www.ncbi.nlm.nih.gov/pubmed/35926711
http://dx.doi.org/10.1016/j.jbc.2022.102333
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