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Rapid preparation of nuclei-depleted detergent-resistant membrane fractions suitable for proteomics analysis

BACKGROUND: Cholesterol-rich membrane microdomains known as lipid rafts have been implicated in diverse physiologic processes including lipid transport and signal transduction. Lipid rafts were originally defined as detergent-resistant membranes (DRMs) due to their relative insolubility in cold non-...

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Autores principales: Adam, Rosalyn M, Yang, Wei, Di Vizio, Dolores, Mukhopadhyay, Nishit K, Steen, Hanno
Formato: Texto
Lenguaje:English
Publicado: BioMed Central 2008
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC2440737/
https://www.ncbi.nlm.nih.gov/pubmed/18534013
http://dx.doi.org/10.1186/1471-2121-9-30
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author Adam, Rosalyn M
Yang, Wei
Di Vizio, Dolores
Mukhopadhyay, Nishit K
Steen, Hanno
author_facet Adam, Rosalyn M
Yang, Wei
Di Vizio, Dolores
Mukhopadhyay, Nishit K
Steen, Hanno
author_sort Adam, Rosalyn M
collection PubMed
description BACKGROUND: Cholesterol-rich membrane microdomains known as lipid rafts have been implicated in diverse physiologic processes including lipid transport and signal transduction. Lipid rafts were originally defined as detergent-resistant membranes (DRMs) due to their relative insolubility in cold non-ionic detergents. Recent findings suggest that, although DRMs are not equivalent to lipid rafts, the presence of a given protein within DRMs strongly suggests its potential for raft association in vivo. Therefore, isolation of DRMs represents a useful starting point for biochemical analysis of lipid rafts. The physicochemical properties of DRMs present unique challenges to analysis of their protein composition. Existing methods of isolating DRM-enriched fractions involve flotation of cell extracts in a sucrose density gradient, which, although successful, can be labor intensive, time consuming and results in dilute sucrose-containing fractions with limited utility for direct proteomic analysis. In addition, several studies describing the proteomic characterization of DRMs using this and other approaches have reported the presence of nuclear proteins in such fractions. It is unclear whether these results reflect trafficking of nuclear proteins to DRMs or whether they arise from nuclear contamination during isolation. To address these issues, we have modified a published differential detergent extraction method to enable rapid DRM isolation that minimizes nuclear contamination and yields fractions compatible with mass spectrometry. RESULTS: DRM-enriched fractions isolated using the conventional or modified extraction methods displayed comparable profiles of known DRM-associated proteins, including flotillins, GPI-anchored proteins and heterotrimeric G-protein subunits. Thus, the modified procedure yielded fractions consistent with those isolated by existing methods. However, we observed a marked reduction in the percentage of nuclear proteins identified in DRM fractions isolated with the modified method (15%) compared to DRMs isolated by conventional means (36%). Furthermore, of the 21 nuclear proteins identified exclusively in modified DRM fractions, 16 have been reported to exist in other subcellular sites, with evidence to suggest shuttling of these species between the nucleus and other organelles. CONCLUSION: We describe a modified DRM isolation procedure that generates DRMs that are largely free of nuclear contamination and that is compatible with downstream proteomic analyses with minimal additional processing. Our findings also imply that identification of nuclear proteins in DRMs is likely to reflect legitimate movement of proteins between compartments, and is not a result of contamination during extraction.
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spelling pubmed-24407372008-06-27 Rapid preparation of nuclei-depleted detergent-resistant membrane fractions suitable for proteomics analysis Adam, Rosalyn M Yang, Wei Di Vizio, Dolores Mukhopadhyay, Nishit K Steen, Hanno BMC Cell Biol Methodology Article BACKGROUND: Cholesterol-rich membrane microdomains known as lipid rafts have been implicated in diverse physiologic processes including lipid transport and signal transduction. Lipid rafts were originally defined as detergent-resistant membranes (DRMs) due to their relative insolubility in cold non-ionic detergents. Recent findings suggest that, although DRMs are not equivalent to lipid rafts, the presence of a given protein within DRMs strongly suggests its potential for raft association in vivo. Therefore, isolation of DRMs represents a useful starting point for biochemical analysis of lipid rafts. The physicochemical properties of DRMs present unique challenges to analysis of their protein composition. Existing methods of isolating DRM-enriched fractions involve flotation of cell extracts in a sucrose density gradient, which, although successful, can be labor intensive, time consuming and results in dilute sucrose-containing fractions with limited utility for direct proteomic analysis. In addition, several studies describing the proteomic characterization of DRMs using this and other approaches have reported the presence of nuclear proteins in such fractions. It is unclear whether these results reflect trafficking of nuclear proteins to DRMs or whether they arise from nuclear contamination during isolation. To address these issues, we have modified a published differential detergent extraction method to enable rapid DRM isolation that minimizes nuclear contamination and yields fractions compatible with mass spectrometry. RESULTS: DRM-enriched fractions isolated using the conventional or modified extraction methods displayed comparable profiles of known DRM-associated proteins, including flotillins, GPI-anchored proteins and heterotrimeric G-protein subunits. Thus, the modified procedure yielded fractions consistent with those isolated by existing methods. However, we observed a marked reduction in the percentage of nuclear proteins identified in DRM fractions isolated with the modified method (15%) compared to DRMs isolated by conventional means (36%). Furthermore, of the 21 nuclear proteins identified exclusively in modified DRM fractions, 16 have been reported to exist in other subcellular sites, with evidence to suggest shuttling of these species between the nucleus and other organelles. CONCLUSION: We describe a modified DRM isolation procedure that generates DRMs that are largely free of nuclear contamination and that is compatible with downstream proteomic analyses with minimal additional processing. Our findings also imply that identification of nuclear proteins in DRMs is likely to reflect legitimate movement of proteins between compartments, and is not a result of contamination during extraction. BioMed Central 2008-06-05 /pmc/articles/PMC2440737/ /pubmed/18534013 http://dx.doi.org/10.1186/1471-2121-9-30 Text en Copyright © 2008 Adam et al; licensee BioMed Central Ltd. http://creativecommons.org/licenses/by/2.0 This is an Open Access article distributed under the terms of the Creative Commons Attribution License ( (http://creativecommons.org/licenses/by/2.0) ), which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.
spellingShingle Methodology Article
Adam, Rosalyn M
Yang, Wei
Di Vizio, Dolores
Mukhopadhyay, Nishit K
Steen, Hanno
Rapid preparation of nuclei-depleted detergent-resistant membrane fractions suitable for proteomics analysis
title Rapid preparation of nuclei-depleted detergent-resistant membrane fractions suitable for proteomics analysis
title_full Rapid preparation of nuclei-depleted detergent-resistant membrane fractions suitable for proteomics analysis
title_fullStr Rapid preparation of nuclei-depleted detergent-resistant membrane fractions suitable for proteomics analysis
title_full_unstemmed Rapid preparation of nuclei-depleted detergent-resistant membrane fractions suitable for proteomics analysis
title_short Rapid preparation of nuclei-depleted detergent-resistant membrane fractions suitable for proteomics analysis
title_sort rapid preparation of nuclei-depleted detergent-resistant membrane fractions suitable for proteomics analysis
topic Methodology Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC2440737/
https://www.ncbi.nlm.nih.gov/pubmed/18534013
http://dx.doi.org/10.1186/1471-2121-9-30
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