Preparation of Precisely Oriented Cryosections of Undistorted Drosophila Wing Imaginal Discs for High Resolution Confocal Imaging

摘要

The combination of immunofluorescence and laser scanning confocal microscopy (LSM) is essential to high-resolution detection of molecular distribution in biological specimens. A frequent limitation is the need to image deep inside a tissue or in a specific plane, which may be inaccessible due to tissue size or shape. Recreating high-resolution 3D images is not possible because the point-spread function of light reduces the resolution in the Z-axis about 3-fold, compared to XY, and light scattering obscures signal deep in the tissue. However, the XY plane of interest can be chosen if embedded samples are precisely oriented and sectioned prior to imaging (). Here we describe the preparation of frozen tissue sections of the Drosophila wing imaginal disc, which allows us to obtain high-resolution images throughout the depth of this folded epithelium.>The epithelial structure and undistorted folding pattern are revealed in its entire depth in this frozen section of developing Drosophila wing.A-D. Transverse dorsoventral sections through the wing pouch. A. Cryosection reveals nuclei (A, green) and subcellular distribution of α-catenin (A’, A”, magenta) with signal throughout the depth of the epithelium. The basal surface is clearly detectable (arrows). A” is digitally enhanced image of A’. B. A Z-stack of images collected in a top-down view displayed as XZ orthogonal view reveals nuclei (B) but little discernable detail for α-catenin (B’, B”) and even the digitally enhanced image (B”) fails to reveal the basal epithelial surface (arrow). C. Transverse dorsoventral section displaying the Distal-less (Dll, green) gradient in the wing pouch and subcellular localization of DE-Cadherin (magenta) throughout the epithelium. D. View of the wing pouch. Dorsal is to the left; apical is up. Scale bars are 1 μm in A, B, 11 μm in C, 5 μm in D.