Gridded Aclar: preparation methods and use for correlative light and electron microscopy of cell monolayers, by TEM and FIB-SEM

Aclar, a copolymer film with properties very similar to those of tissue culture plastic, is a versatile substrate to grow cells for light (including fluorescence) and electron microscopic applications in combination with both chemical fixation and cryoimmobilization. In this paper, we describe compl...

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Bibliographic Details
Published in:Journal of microscopy (Oxford) 2010-02, Vol.237 (2), p.208-220
Main Authors: JIMÉNEZ, N, VAN DONSELAAR, E.G, DE WINTER, D.A.M, VOCKING, K, VERKLEIJ, A.J, POST, J.A
Format: Article
Language:English
Subjects:
Aclar
Cell Culture Techniques - methods
cell monolayers
Cells, Cultured
correlative light and electron microscopy
endothelial cells
Endothelial Cells - cytology
focused ion beam-scanning electron microscope
Humans
immunolabelling
Microscopy - methods
Microscopy, Electron - methods
Specimen Handling - methods
transmission electron microscope
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Summary:Aclar, a copolymer film with properties very similar to those of tissue culture plastic, is a versatile substrate to grow cells for light (including fluorescence) and electron microscopic applications in combination with both chemical fixation and cryoimmobilization. In this paper, we describe complete procedures to perform correlative light and electron microscopy using Aclar as substrate for the culture of cell monolayers to be finally embedded in plastic. First, we developed straightforward, efficient and flexible ways to mark the surface of the Aclar to create substrates to locate cells first at the light microscopy and then the electron microscopy level. All the methods enable the user to self-design gridded Aclar pieces, according to the purpose of the experiments, and create a large number of substrates in a short time. Second, we confirmed that marked Aclar supports the normal growth and morphology of cells. Third, we validated the correlative light and electron microscopy procedure using Aclar. This validation was done for the high-resolution analysis of endothelial cells using transmission electron microscopy and focused ion beam-scanning electron microscopy in combination with the use of fluorescence, phase contrast and/or bright field microscopy to map areas of interest at low resolution. The methods that we present are diverse, easy to implement and highly reproducible, and emphasize the versatility of Aclar as a cell growth substrate for diverse microscopic applications.
ISSN:0022-2720
1365-2818
DOI:10.1111/j.1365-2818.2009.03329.x