Fluorescent Sterols and Cholesteryl Esters as Probes for Intracellular Cholesterol Transport

Fluorescent Sterols and Cholesteryl Esters as Probes for Intracellular Cholesterol Transport

Cholesterol transport between cellular organelles comprised vesicular trafficking and nonvesicular exchange; these processes are often studied by quantitative fluorescence microscopy. A major challenge for using this approach is producing analogs of cholesterol with suitable brightness and structura...

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Bibliographic Details
Published in:Lipid Insights Vol. 2015; no. Suppl. 1; pp. 95 - 114
Main Authors: Solanko, Katarzyna A., Modzel, Maciej, Solanko, Lukasz M., Wüstner, Daniel
Format: Journal Article Book Review
Language:English
Published: London, England SAGE Publishing 2015
SAGE Publications
Sage Publications Ltd
Libertas Academica
Subjects:
Review
fluorescent sterols
endocytosis
metabolism
imaging
optical microscopy
sterol trafficking
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Summary:Cholesterol transport between cellular organelles comprised vesicular trafficking and nonvesicular exchange; these processes are often studied by quantitative fluorescence microscopy. A major challenge for using this approach is producing analogs of cholesterol with suitable brightness and structural and chemical properties comparable with those of cholesterol. This review surveys currently used fluorescent sterols with respect to their behavior in model membranes, their photophysical properties, as well as their transport and metabolism in cells. In the first part, several intrinsically fluorescent sterols, such as dehydroergosterol or cholestatrienol, are discussed. These polyene sterols (P-sterols) contain three conjugated double bonds in the steroid ring system, giving them slight fluorescence in ultraviolet light. We discuss the properties of P-sterols relative to cholesterol, outline their chemical synthesis, and explain how to image them in living cells and organisms. In particular, we show that P-sterol esters inserted into low-density lipoprotein can be tracked in the fibroblasts of Niemann–Pick disease using high-resolution deconvolution microscopy. We also describe fluorophore-tagged cholesterol probes, such as BODIPY-, NBD-, Dansyl-, or Pyrene-tagged cholesterol, and eventual esters of these analogs. Finally, we survey the latest developments in the synthesis and use of alkyne cholesterol analogs to be labeled with fluorophores by click chemistry and discuss the potential of all approaches for future applications.
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These authors contributed equally to this work.
ISSN:1178-6353
1178-6353
DOI:10.4137/LPI.S31617