Different Effects of Long- and Short-Chain Ceramides on the Gel-Fluid and Lamellar-Hexagonal Transitions of Phospholipids: A Calorimetric, NMR, and X-Ray Diffraction Study

doi:10.1529/biophysj.104.057851

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Different Effects of Long- and Short-Chain Ceramides on the Gel-Fluid and Lamellar-Hexagonal Transitions of Phospholipids: A Calorimetric, NMR, and X-Ray Diffraction Study

Jesús Sot^*, Francisco J. Aranda, M.-Isabel Collado, Félix M. Goñi^* and Alicia Alonso^*

^* Unidad de Biofísica (Centro Mixto CSIC-UPV/EHU) and Departamento de Bioquímica, Universidad del País Vasco, 48080 Bilbao, Spain; Departamento de Bioquímica y Biología Molecular A, Facultad de Veterinaria, Universidad de Murcia, Murcia, Spain; and Servicio General de Resonancia Magnética Nuclear, Universidad del País Vasco, Bilbao, Spain

Correspondence: Address reprint requests to Alicia Alonso, Fax: 34-94-601-3360; E-mail: gbpaliza{at}lg.ehu.es.

The effects on dielaidoylphosphatidylethanolamine (DEPE) bilayersof ceramides containing different N-acyl chains have been studiedby differential scanning calorimetry small angle x-ray diffractionand ³¹P-NMR spectroscopy. N-palmitoyl (Cer16), N-hexanoyl (Cer6),and N-acetyl (Cer2) sphingosines have been used. Both the gel-fluidand the lamellar-inverted hexagonal transitions of DEPE havebeen examined in the presence of the various ceramides in the0-25 mol % concentration range. Pure hydrated ceramides exhibitcooperative endothermic order-disorder transitions at 93°C(Cer16), 60°C (Cer6), and 54°C (Cer2). In DEPE bilayers,Cer16 does not mix with the phospholipid in the gel phase, givingrise to high-melting ceramide-rich domains. Cer16 favors thelamellar-hexagonal transition of DEPE, decreasing the transitiontemperature. Cer2, on the other hand, is soluble in the gelphase of DEPE, decreasing the gel-fluid and increasing the lamellar-hexagonaltransition temperatures, thus effectively stabilizing the lamellarfluid phase. In addition, Cer2 was peculiar in that no equilibriumcould be reached for the Cer2-DEPE mixture above 60°C, thelamellar-hexagonal transition shifting with time to temperaturesbeyond the instrumental range. The properties of Cer6 are intermediatebetween those of the other two, this ceramide decreasing boththe gel-fluid and lamellar-hexagonal transition temperatures.Temperature-composition diagrams have been constructed for themixtures of DEPE with each of the three ceramides. The differentbehavior of the long- and short-chain ceramides can be rationalizedin terms of their different molecular geometries, Cer16 favoringnegative curvature in the monolayers, thus inverted phases,and the opposite being true of the micelle-forming Cer2. Thesedifferences may be at the origin of the different physiologicaleffects that are sometimes observed for the long- and short-chainceramides.

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