Lipid Expansion Microscopy

Membrane architectures whose dimensions and features are smaller than the diffraction limit of light orchestrate diverse cellular events such as lipid transport, vesicle formation, and calcium signaling. These structures, which include membrane invaginations, organelle contact sites, and membrane mi...

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Bibliographic Details
Published in:The FASEB journal 2022-05, Vol.36 (S1), p.n/a
Main Authors: White‐Mathieu, Brittany M., Conwell, Amanda, Wu, Kane, Baskin, Jeremy
Format: Article
Language:English
Online Access:Get full text
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Summary:Membrane architectures whose dimensions and features are smaller than the diffraction limit of light orchestrate diverse cellular events such as lipid transport, vesicle formation, and calcium signaling. These structures, which include membrane invaginations, organelle contact sites, and membrane microdomains, are primarily composed of phospholipids, making methods to visualize these biomolecules vital to our understanding of cellular function. Techniques to accurately image phospholipid‐containing structures with fluorescence microscopy are challenged by the diffusion of lipids within the bilayer, even in fixed samples. Expansion microscopy (ExM) utilizes hydrogel formation to fix biomolecules in place and swell samples to produce high‐resolution images of protein‐ and nucleic acid‐containing cellular structures 30‐70 nm in size. Using chemical reporter metabolites and a novel multifunctional fluorophore probe, here we present Lipid Expansion Microscopy (LExM), which enables the high‐resolution imaging of phospholipids with a tunable expansion factor using the principles of ExM. We will present key synthetic and technological advances critical to the development of LExM as well as its application to visualize nanoscale membrane structures, phospholipid‐organelle colocalization, and the spatial component of flux through specific lipid biosynthetic pathways within intact cells.
ISSN:0892-6638
1530-6860
DOI:10.1096/fasebj.2022.36.S1.R2535