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Cholesterol-rich fluid membranes solubilize ceramide domains: implications for the structure and dynamics of mammalian intracellular and plasma membranes.

Abstract
A uniquely sensitive method for ceramide domain detection allowed us to study in detail cholesterol-ceramide interactions in lipid bilayers with low (physiological) ceramide concentrations, ranging from low or no cholesterol (a situation similar to intracellular membranes, such as endoplasmic reticulum) to high cholesterol (similar to mammalian plasma membrane). Diverse fluorescence spectroscopy and microscopy experiments were conducted showing that for low cholesterol amounts ceramide segregates into gel domains that disappear upon increasing cholesterol levels. This was observed in different raft (sphingomyelin/cholesterol-containing) and non-raft (sphingomyelin-absent) membranes, i.e. mimicking different types of cell membranes. Cholesterol-ceramide interactions have been described mainly as raft sphingomyelin-dependent. Here sphingomyelin independence is demonstrated. In addition, ceramide-rich domains re-appear when either cholesterol is converted by cholesterol oxidase to cholestenone or the temperature is decreased. Ceramide is more soluble in cholesterol-rich fluid membranes than in cholesterol-poor ones, thereby increasing the chemical potential of cholesterol. Ceramide solubility depends on the average gel-fluid transition temperature of the remaining membrane lipids. The inability of cholestenone-rich membranes to dissolve ceramide gel domains shows that the cholesterol ordering and packing properties are fundamental to the mixing process. We also show that the solubility of cholesterol in ceramide domains is low. The results are rationalized by a ternary phospholipid/ceramide/cholesterol phase diagram, providing the framework for the better understanding of biochemical phenomena modulated by cholesterol-ceramide interactions such as cholesterol oxidase activity, lipoprotein metabolism, and lipid targeting in cancer therapy. It also suggests that the lipid compositions of different organelles are such that ceramide gel domains are not formed unless a stress or pathological situation occurs.
AuthorsBruno M Castro, Liana C Silva, Alexander Fedorov, Rodrigo F M de Almeida, Manuel Prieto
JournalThe Journal of biological chemistry (J Biol Chem) Vol. 284 Issue 34 Pg. 22978-87 (Aug 21 2009) ISSN: 1083-351X [Electronic] United States
PMID19520848 (Publication Type: Journal Article, Research Support, Non-U.S. Gov't)
Chemical References
  • Ceramides
  • Lipid Bilayers
  • Cholesterol
Topics
  • Animals
  • Cell Membrane (chemistry)
  • Ceramides (chemistry)
  • Cholesterol (chemistry)
  • Intracellular Membranes (chemistry)
  • Lipid Bilayers (chemistry)
  • Mammals
  • Membrane Fluidity (physiology)
  • Microscopy, Confocal
  • Microscopy, Fluorescence

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