Expansion microscopy for super-resolution imaging of collagen-abundant tissues

Abstract

AbstractExpansion microscopy (ExM) is popular for three-dimensional ultrastructural imaging of cultured cells and tissue slices at nanoscale resolution with conventional microscopes via physical expansion of biological tissues. However, the application of this technology to collagen-abundant thick tissues is challenging. We demonstrate a new method, collagen expansion microscopy (ColExM), optimized for expanding tissues containing more than 70% collagen. ColExM succeeded in 4.5-fold linear expansion with minimal structural distortion of corneal and skin tissues. It was also compatible with immunostaining, allowing super-resolution visualization of three-dimensional neural structures innervating hair follicles and corneas. With ColExM, we succeeded in identifying individual mitochondria and previously unrecognized dendritic spine-like structures of corneal nerves. ColExM also enabled fine mapping of structural rearrangement of tight junctions and actin cytoskeletons. Therefore, this method can facilitate the exploration of three-dimensional nanoscale structures in collagen-rich tissues.