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  • Title: Fluorinated cholesterol retains domain-forming activity in sphingomyelin bilayers.
    Author: Matsumori N, Okazaki H, Nomura K, Murata M.
    Journal: Chem Phys Lipids; 2011 Jul; 164(5):401-8. PubMed ID: 21664344.
    Abstract:
    Lipid rafts are cholesterol (Chol)-rich microdomains floating in a sea of lipid bilayers. Chol is thought to interact preferentially with sphingolipids such as sphingomyelin (SM) rather than with glycerophospholipids, and this putative SM-Chol interaction is generally recognized as a requirement for raft formation. However, the presence of the specific interaction is still controversial, primarily because of the lack of useful molecular probes for scrutinizing this interaction. Recently, we reported that the dynamic properties of 6-F-Chol in DMPC bilayers are similar to those of unmodified Chol. Hence, in the present study, we first compared the roles of 6-F-Chol and Chol in SM bilayers through detergent insolubility, fluorescence polarization, and (2)H NMR experiments. The results demonstrated that 6-F-Chol and Chol behave similarly in SM bilayers, whereas, in SM-DOPC membranes, 6-F-Chol is less effective in domain formation. Then, we analyzed the molecular orientation of 6-F-Chol in SM bilayers using solid-state NMR, and found that the dynamics and orientation of 6-F-Chol in SM bilayers are almost identical to those in DMPC bilayers. This supports the notion of the lack of a putative specific interaction between SM and Chol. Thus, this study demonstrates the utility of 6-F-Chol as a molecular probe for understanding molecular recognition in lipid rafts.
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