Ceramide: A simple sphingolipid with unique biophysical properties

Ceramide: A simple sphingolipid with unique biophysical properties

Ceramides are involved in a variety of cellular processes and in disease. Their biological functions are thought to depend on ceramides’ unique biophysical properties, which promote strong alterations of cell membrane properties and consequent triggering of signaling events. Over the last decades, e...

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Bibliographic Details
Published in:Progress in lipid research Vol. 54; pp. 53 - 67
Main Authors: Castro, Bruno M., Prieto, Manuel, Silva, Liana C.
Format: Journal Article
Language:English
Published: England Elsevier Ltd 01-04-2014
Subjects:
Biophysics - methods
Cell Membrane - metabolism
Ceramide-gel domains
Ceramides - chemistry
Ceramides - metabolism
Chemical Phenomena
Lipid rafts
Membrane lipid domains
Morphological alterations
N-acyl chain ceramides
Sphingomyelin Phosphodiesterase - metabolism
Sphingomyelinase
BODIPY
Chol
lo
C18-Cer
EPR
TNF
PLAP
DSC
POPC
C2-Cer
Tm
DMPC
Sphingomyelinase
C10-Cer
DOPC
Membrane lipid domains
DEPE
GUV
C24-Cer
Cer
C12-Cer
FCS
SLs
CerS
DPH
C16-SM
N-acyl chain ceramides
Ceramide-gel domains
C8-Cer
AFM
Lipid rafts
Morphological alterations
C6-Cer
FTIR
DHPC
C14-Cer
FRET
Laurdan
SM
DPPC
GSL
C18:1-Cer
C16-Cer
BAM
SMase
C4-Cer
NMR
PC
PE
C24:1-Cer
LC
ld
LE
TEM
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Description
Summary:Ceramides are involved in a variety of cellular processes and in disease. Their biological functions are thought to depend on ceramides’ unique biophysical properties, which promote strong alterations of cell membrane properties and consequent triggering of signaling events. Over the last decades, efforts were made to understand the impact of ceramide on membrane biophysical features. Several studies, performed in a multitude of membrane models, address ceramides’ specific interactions, the effect of their acyl chain structure and the influence of membrane lipid composition and properties on ceramide biophysical outcome. In this review, a rationale for the multiple and complex changes promoted by ceramide is provided, highlighting, on a comprehensive and critical manner, the interactions between ceramides and specific lipids and/or lipid phases. Focus is also given to the interplay between ceramide and cholesterol, particularly in lipid raft-mimicking mixtures, an issue of intense debate due to the urgent need to understand the biophysical impact of ceramide formation in models resembling the cell membrane. The implications of ceramide-induced biophysical changes on lipid–protein interactions and cell signaling are also discussed, together with the emerging evidence for the existence of ceramide-gel like domains in cellular membranes.
Bibliography:ObjectType-Article-2
SourceType-Scholarly Journals-1
ObjectType-Feature-3
content type line 23
ObjectType-Review-1
ISSN:0163-7827
1873-2194
DOI:10.1016/j.plipres.2014.01.004