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  • Title: Sphingomyelinase induces lipid microdomain formation in a fluid phosphatidylcholine/sphingomyelin membrane.
    Author: Holopainen JM, Subramanian M, Kinnunen PK.
    Journal: Biochemistry; 1998 Dec 15; 37(50):17562-70. PubMed ID: 9860872.
    Abstract:
    The behaviors of two chemically well-defined sphingolipids, N-palmitoyl-sphingomyelin (C16:0-SM) and the corresponding ceramide (C16:0-Cer), in a 1-palmitoyl-2-oleoyl-sn-glycero-3-phosphatidylcholine (POPC) matrix were compared. Minor attenuation of lateral diffusion upon increasing the mole fraction of C16:0-SM (XSM, up to 0.25) was indicated by the slight decrement in the excimer/monomer intensity ratio (Ie/Im) for a trace amount (mole fraction X = 0.01) of a pyrene-labeled ceramide analogue (N-[(pyren)-1-yl]decanoyl-sphingosine, PDCer) in keeping with the miscibility of C16:0-SM in POPC. Increasing membrane order was revealed by the augmented polarization P for diphenylhexatriene (DPH). In contrast, when C16:0-Cer was substituted for C16:0-SM an approximately 1.6-fold increase in Ie/Im for PDCer was evident upon increasing Xcer, with parallel increment in DPH polarization. In agreement with our recent data on natural ceramides in dimyristoylphosphatidylcholine (DMPC) bilayers [Holopainen et al. (1997) Chem. Phys. Lipids 88, 1-13], we conclude that C16:0-Cer becomes enriched into microdomains in the fluid POPC membrane. Interestingly, enhanced formation of microdomains by ceramide was observed when the total sphingolipid content in tertiary alloys with POPC was maintained constant (Xcer + XSM = 0.25) and the SM/Cer stoichiometry was varied. Finally, when ceramide was generated enzymatically in POPC/C16:0-SM (3:1, molar fraction) LUVs by sphingomyelinase (SMase, Bacillus cereus), maximally approximately 85% of hydrolysis of sphingomyelin was measured within <3 min at 30 degreesC. The formation of ceramide was accompanied by a closely parallel increase in DPH polarization. There was also an increase in Ie/Im for PDCer; however, these changes in Ie/Im were significantly slower, requiring approximately 105 min to reach a steady state. These data show that the rapid enzymatic formation of ceramide under these conditions is followed by much slower reorganization process, resulting in the formation of microdomains enriched in this lipid.
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