Abstract
The demand to study the cellular localization of specific lipids has led to recent advances in lipid probes and microscopy. Alkyne lipids bear a small, noninterfering tag and can be detected upon click reaction with an azide-coupled reporter. Fluorescent alkyne lipid imaging crucially depends on appropriate azide reporters and labeling protocols that allow for an efficient click reaction and therefore a sensitive detection. We synthesized several azide reporters with different spacer components and tested their suitability for alkyne lipid imaging in fixed cells. The implementation of a copper-chelating picolyl moiety into fluorescent or biotin-based azide reagents strongly increased the sensitivity of the imaging routine. We demonstrate the applicability and evaluate the performance of this approach using different lipid classes and experimental setups. As azide picolyl reporters allow for reduced copper catalyst concentrations, they also enable coimaging of alkyne lipids with multiple fluorescent proteins including enhanced green fluorescent protein. Alternatively, and as we also show, microscopy of alkyne lipids can be combined with protein detection by immunocytochemistry. In summary, we present a robust, sensitive, and highly versatile protocol for the labeling of alkyne lipids with azide-coupled reporters for fluorescence microscopy that can be combined with different protein detection and imaging techniques.
Highlights
The demand to study the cellular localization of specific lipids has led to recent advances in lipid probes and microscopy
Cell outlines were marked as region of interest (ROI) and the mean signal for every individual cell (50–100 cells in six images per sample) measured
We found that enhanced green fluorescent protein (EGFP), its close relatives enhanced yellow fluorescent protein (EYFP) and Emerald GFP (EmGFP), and monomeric teal fluorescent protein 1 (mTFP1) cannot be reliably detected by our microscopy setup after exposure to 2 mM copper catalyst
Summary
The demand to study the cellular localization of specific lipids has led to recent advances in lipid probes and microscopy. Alkyne lipids bear a small, noninterfering tag and can be detected upon click reaction with an azide-coupled reporter. Fluorescent alkyne lipid imaging crucially depends on appropriate azide reporters and labeling protocols that allow for an efficient click reaction and a sensitive detection. And as we show, microscopy of alkyne lipids can be combined with protein detection by immunocytochemistry. We present a robust, sensitive, and highly versatile protocol for the labeling of alkyne lipids with azide-coupled reporters for fluorescence microscopy that can be combined with different protein detection and imaging techniques.—Gaebler, A., A. A highly sensitive protocol for microscopy of alkyne lipids and fluorescently tagged or immunostained proteins. A plethora of lipid species and a delicate network of lipid-lipid and lipid-protein interactions contribute to the form and function of biological membranes [1]. Great care should be taken when interpreting data using any lipid probe except isotope-labeled lipids
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