Cholesterol is a key component of biological membranes and, like many cellular lipids, is unevenly distributed among organelles. Disruptions in cholesterol trafficking are associated with various pathologies, including lysosomal lipid storage disorders, often characterized by intracellular cholesterol accumulation. A significant challenge in studying cholesterol trafficking is the lack of easy methods to trace this molecule in situ. Fluorescent probes that specifically bind cholesterol have enabled the visualization and imaging of cholesterol distribution within cells. This chapter details optimized methods for visualizing and quantifying free cholesterol at the plasma membrane and intracellulaly, both in individual cells and in large cell populations. These methods use two fluorescent probes: the D4 fragment of perfringolysin O fused to monomeric EGFP (mEGFP-D4 and the more sensitive mutant mEGFP-D4H) and the polyene macrolide filipin. We describe robust methods for quantifying plasma membrane cholesterol by flow cytometry and to visualize intracellular cholesterol pools by light microscopy. Furthermore, we introduce a refined filipin staining protocol that enhances intracellular cholesterol detection. For precise quantification, we developed an automated image analysis pipeline. This chapter provides a comprehensive guide for staining and quantifying cellular cholesterol, offering valuable tools for studying cholesterol dynamics in mammalian cells.
Keywords: Cholesterol; D4 probe; Filipin; Late endosome; Lysosome; Perfringolysin O; Plasma membrane.
© 2025. The Author(s), under exclusive license to Springer Science+Business Media, LLC, part of Springer Nature.