par García-Marcos, Mikel;Pochet, Stéphanie 
;Tandel, Séverine ;Fontanils, Unai;Astigarraga, Egoitz;Fernández-González, José Andrés;Kumps, Alain ;Marino, Aida;Dehaye, Jean-Paul
Référence Biochimica et biophysica acta, 1758, 6, page (796-806)
Publication Publié, 2006-06
;Tandel, Séverine ;Fontanils, Unai;Astigarraga, Egoitz;Fernández-González, José Andrés;Kumps, Alain ;Marino, Aida;Dehaye, Jean-Paul Référence Biochimica et biophysica acta, 1758, 6, page (796-806)
Publication Publié, 2006-06
Article révisé par les pairs
| Résumé : | Lipid rafts are defined as cholesterol and sphingolipid enriched domains in biological membranes. Their role in signalling and other cellular processes is widely accepted but the methodology used for their biochemical isolation and characterization remains controversial. Raft-like membranes from rat submandibular glands were isolated by two different protocols commonly described in the literature; one protocol was based on selective solubilization by Triton X-100 at low temperature and the other protocol consisted in extensive sonication. In both cases a low density vesicular fraction was obtained after ultracentrifugation in a sucrose density gradient. These fractions contained about 20% of total cholesterol but less than 8% of total proteins, and were more rigid than bulk membranes. Fatty acid analyses revealed a similar composition of raft-like membranes isolated by the two different methods, which was characterized by an enrichment in saturated fatty acids in detriment of polyunsaturated acids when compared with the whole cell membranes. Protein profile of detergent resistant membranes or raft-like membranes prepared by sonication was assessed by silver staining after SDS-PAGE and by MALDI-TOF. Both analyses provided evidence of a different protein composition of the Triton X-100 and sonication preparations. Immunoblot experiments revealed that raft-like membranes prepared by detergent extraction or sonication were free of Golgi apparatus or endoplasmic reticulum protein markers (beta-COP and calnexin, respectively) and that they were not substantially contaminated by transferrin receptor (a non-raft protein). While caveolin-1 was highly enriched in raft-like membranes prepared by the two methods, the P2X(7) receptor was enriched in raft-like membrane fractions prepared by sonication, but almost undetectable in the detergent resistant membranes. It can be concluded that both methods can be used to obtain raft-like membranes, but that detergent may affect protein interactions responsible for their association with different membrane domains. |
