Halogenation-Dependent Effects of the Chlorosulfolipids of Ochromonas danica on Lipid Bilayers
Autor: | Steven G. Boxer, Noah Z. Burns, Giulio J. Salerno, Gabrielle E. Cabrera, Grace M. McKenna, Steven R. Shuken, Matthew L. Landry, Frank R. Moss, Thomas M. Weiss |
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Rok vydání: | 2020 |
Předmět: |
0301 basic medicine
010405 organic chemistry Chemistry Bilayer Vesicle Halogenation General Medicine 01 natural sciences Biochemistry 0104 chemical sciences 03 medical and health sciences 030104 developmental biology Amphiphile Monolayer Membrane activity Biophysics Molecular Medicine Lipid bilayer Membrane biophysics |
Zdroj: | ACS Chemical Biology. 15:2986-2995 |
ISSN: | 1554-8937 1554-8929 |
DOI: | 10.1021/acschembio.0c00624 |
Popis: | The chlorosulfolipids are amphiphilic natural products with stereochemically complex patterns of chlorination and sulfation. Despite their role in toxic shellfish poisoning, potential pharmacological activities, and unknown biological roles, they remain understudied due to the difficulties in purifying them from natural sources. The structure of these molecules, with a charged sulfate group in the middle of the hydrophobic chain, appears incompatible with the conventional lipid bilayer structure. Questions about chlorosulfolipids remain unanswered partly due to the unavailability of structural analogues with which to conduct structure-function studies. We approach this problem by combining enantioselective total synthesis and membrane biophysics. Using a combination of Langmuir pressure-area isotherms of lipid monolayers, fluorescence imaging of vesicles, mass spectrometry imaging, natural product isolation, small-angle X-ray scattering, and cryogenic electron microscopy, we show that danicalipin A (1) likely inserts into lipid bilayers in the headgroup region and alters their structure and phase behavior. Specifically, danicalipin A (1) thins the bilayer and fluidizes it, allowing even saturated lipid to form fluid bilayers. Lipid monolayers show similar fluidizing upon insertion of danicalipin A (1). Furthermore, we show that the halogenation of the molecule is critical for its membrane activity, likely due to sterically controlled conformational changes. Synthetic unchlorinated and monochlorinated analogues do not thin and fluidize lipid bilayers to the same extent as the natural product. Overall, this study sheds light on how amphiphilic small molecules interact with lipid bilayers and the importance of stereochemistry and halogenation for this interaction. |
Databáze: | OpenAIRE |
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