Stabilization of supramolecular membrane protein–lipid bilayer assemblies through immobilization in a crystalline exoskeleton

Artificial native-like lipid bilayer systems constructed from phospholipids assembling into unilamellar liposomes allow the reconstitution of detergent-solubilized transmembrane proteins into supramolecular lipid-protein assemblies called proteoliposomes, which mimic cellular membranes. Stabilizatio...

Descripción completa

Detalles Bibliográficos
Autores principales: Herbert, Fabian C., Abeyrathna, Sameera S., Abeyrathna, Nisansala S., Wijesundara, Yalini H., Brohlin, Olivia R., Carraro, Francesco, Amenitsch, Heinz, Falcaro, Paolo, Luzuriaga, Michael A., Durand-Silva, Alejandra, Diwakara, Shashini D., Smaldone, Ronald A., Meloni, Gabriele, Gassensmith, Jeremiah J.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Nature Publishing Group UK 2021
Materias:
Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8044103/
https://www.ncbi.nlm.nih.gov/pubmed/33850135
http://dx.doi.org/10.1038/s41467-021-22285-y
_version_ 1783678414780104704
author Herbert, Fabian C.
Abeyrathna, Sameera S.
Abeyrathna, Nisansala S.
Wijesundara, Yalini H.
Brohlin, Olivia R.
Carraro, Francesco
Amenitsch, Heinz
Falcaro, Paolo
Luzuriaga, Michael A.
Durand-Silva, Alejandra
Diwakara, Shashini D.
Smaldone, Ronald A.
Meloni, Gabriele
Gassensmith, Jeremiah J.
author_facet Herbert, Fabian C.
Abeyrathna, Sameera S.
Abeyrathna, Nisansala S.
Wijesundara, Yalini H.
Brohlin, Olivia R.
Carraro, Francesco
Amenitsch, Heinz
Falcaro, Paolo
Luzuriaga, Michael A.
Durand-Silva, Alejandra
Diwakara, Shashini D.
Smaldone, Ronald A.
Meloni, Gabriele
Gassensmith, Jeremiah J.
author_sort Herbert, Fabian C.
collection PubMed
description Artificial native-like lipid bilayer systems constructed from phospholipids assembling into unilamellar liposomes allow the reconstitution of detergent-solubilized transmembrane proteins into supramolecular lipid-protein assemblies called proteoliposomes, which mimic cellular membranes. Stabilization of these complexes remains challenging because of their chemical composition, the hydrophobicity and structural instability of membrane proteins, and the lability of interactions between protein, detergent, and lipids within micelles and lipid bilayers. In this work we demonstrate that metastable lipid, protein-detergent, and protein-lipid supramolecular complexes can be successfully generated and immobilized within zeolitic-imidazole framework (ZIF) to enhance their stability against chemical and physical stressors. Upon immobilization in ZIF bio-composites, blank liposomes, and model transmembrane metal transporters in detergent micelles or embedded in proteoliposomes resist elevated temperatures, exposure to chemical denaturants, aging, and mechanical stresses. Extensive morphological and functional characterization of the assemblies upon exfoliation reveal that all these complexes encapsulated within the framework maintain their native morphology, structure, and activity, which is otherwise lost rapidly without immobilization.
format Online
Article
Text
id pubmed-8044103
institution National Center for Biotechnology Information
language English
publishDate 2021
publisher Nature Publishing Group UK
record_format MEDLINE/PubMed
spelling pubmed-80441032021-04-30 Stabilization of supramolecular membrane protein–lipid bilayer assemblies through immobilization in a crystalline exoskeleton Herbert, Fabian C. Abeyrathna, Sameera S. Abeyrathna, Nisansala S. Wijesundara, Yalini H. Brohlin, Olivia R. Carraro, Francesco Amenitsch, Heinz Falcaro, Paolo Luzuriaga, Michael A. Durand-Silva, Alejandra Diwakara, Shashini D. Smaldone, Ronald A. Meloni, Gabriele Gassensmith, Jeremiah J. Nat Commun Article Artificial native-like lipid bilayer systems constructed from phospholipids assembling into unilamellar liposomes allow the reconstitution of detergent-solubilized transmembrane proteins into supramolecular lipid-protein assemblies called proteoliposomes, which mimic cellular membranes. Stabilization of these complexes remains challenging because of their chemical composition, the hydrophobicity and structural instability of membrane proteins, and the lability of interactions between protein, detergent, and lipids within micelles and lipid bilayers. In this work we demonstrate that metastable lipid, protein-detergent, and protein-lipid supramolecular complexes can be successfully generated and immobilized within zeolitic-imidazole framework (ZIF) to enhance their stability against chemical and physical stressors. Upon immobilization in ZIF bio-composites, blank liposomes, and model transmembrane metal transporters in detergent micelles or embedded in proteoliposomes resist elevated temperatures, exposure to chemical denaturants, aging, and mechanical stresses. Extensive morphological and functional characterization of the assemblies upon exfoliation reveal that all these complexes encapsulated within the framework maintain their native morphology, structure, and activity, which is otherwise lost rapidly without immobilization. Nature Publishing Group UK 2021-04-13 /pmc/articles/PMC8044103/ /pubmed/33850135 http://dx.doi.org/10.1038/s41467-021-22285-y Text en © The Author(s) 2021 https://creativecommons.org/licenses/by/4.0/Open Access This article is licensed under a Creative Commons Attribution 4.0 International License, which permits use, sharing, adaptation, distribution and reproduction in any medium or format, as long as you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons license, and indicate if changes were made. The images or other third party material in this article are included in the article’s Creative Commons license, unless indicated otherwise in a credit line to the material. If material is not included in the article’s Creative Commons license and your intended use is not permitted by statutory regulation or exceeds the permitted use, you will need to obtain permission directly from the copyright holder. To view a copy of this license, visit http://creativecommons.org/licenses/by/4.0/ (https://creativecommons.org/licenses/by/4.0/) .
spellingShingle Article
Herbert, Fabian C.
Abeyrathna, Sameera S.
Abeyrathna, Nisansala S.
Wijesundara, Yalini H.
Brohlin, Olivia R.
Carraro, Francesco
Amenitsch, Heinz
Falcaro, Paolo
Luzuriaga, Michael A.
Durand-Silva, Alejandra
Diwakara, Shashini D.
Smaldone, Ronald A.
Meloni, Gabriele
Gassensmith, Jeremiah J.
Stabilization of supramolecular membrane protein–lipid bilayer assemblies through immobilization in a crystalline exoskeleton
title Stabilization of supramolecular membrane protein–lipid bilayer assemblies through immobilization in a crystalline exoskeleton
title_full Stabilization of supramolecular membrane protein–lipid bilayer assemblies through immobilization in a crystalline exoskeleton
title_fullStr Stabilization of supramolecular membrane protein–lipid bilayer assemblies through immobilization in a crystalline exoskeleton
title_full_unstemmed Stabilization of supramolecular membrane protein–lipid bilayer assemblies through immobilization in a crystalline exoskeleton
title_short Stabilization of supramolecular membrane protein–lipid bilayer assemblies through immobilization in a crystalline exoskeleton
title_sort stabilization of supramolecular membrane protein–lipid bilayer assemblies through immobilization in a crystalline exoskeleton
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8044103/
https://www.ncbi.nlm.nih.gov/pubmed/33850135
http://dx.doi.org/10.1038/s41467-021-22285-y
work_keys_str_mv AT herbertfabianc stabilizationofsupramolecularmembraneproteinlipidbilayerassembliesthroughimmobilizationinacrystallineexoskeleton
AT abeyrathnasameeras stabilizationofsupramolecularmembraneproteinlipidbilayerassembliesthroughimmobilizationinacrystallineexoskeleton
AT abeyrathnanisansalas stabilizationofsupramolecularmembraneproteinlipidbilayerassembliesthroughimmobilizationinacrystallineexoskeleton
AT wijesundarayalinih stabilizationofsupramolecularmembraneproteinlipidbilayerassembliesthroughimmobilizationinacrystallineexoskeleton
AT brohlinoliviar stabilizationofsupramolecularmembraneproteinlipidbilayerassembliesthroughimmobilizationinacrystallineexoskeleton
AT carrarofrancesco stabilizationofsupramolecularmembraneproteinlipidbilayerassembliesthroughimmobilizationinacrystallineexoskeleton
AT amenitschheinz stabilizationofsupramolecularmembraneproteinlipidbilayerassembliesthroughimmobilizationinacrystallineexoskeleton
AT falcaropaolo stabilizationofsupramolecularmembraneproteinlipidbilayerassembliesthroughimmobilizationinacrystallineexoskeleton
AT luzuriagamichaela stabilizationofsupramolecularmembraneproteinlipidbilayerassembliesthroughimmobilizationinacrystallineexoskeleton
AT durandsilvaalejandra stabilizationofsupramolecularmembraneproteinlipidbilayerassembliesthroughimmobilizationinacrystallineexoskeleton
AT diwakarashashinid stabilizationofsupramolecularmembraneproteinlipidbilayerassembliesthroughimmobilizationinacrystallineexoskeleton
AT smaldoneronalda stabilizationofsupramolecularmembraneproteinlipidbilayerassembliesthroughimmobilizationinacrystallineexoskeleton
AT melonigabriele stabilizationofsupramolecularmembraneproteinlipidbilayerassembliesthroughimmobilizationinacrystallineexoskeleton
AT gassensmithjeremiahj stabilizationofsupramolecularmembraneproteinlipidbilayerassembliesthroughimmobilizationinacrystallineexoskeleton

Ejemplares similares