Comparative analysis reveals Ce3D as optimal clearing method for in toto imaging of the mouse intestine
- PMID: 30761698
- DOI: 10.1111/nmo.13560
Comparative analysis reveals Ce3D as optimal clearing method for in toto imaging of the mouse intestine
Abstract
Background: The intestinal wall has a complex topographical architecture. The multi-layered network of the enteric nervous system and its intercellular interactions are difficult to map using traditional section-based or whole-mount histology. With the advent of optical clearing techniques, it has become feasible to visualize intact tissue and organs in 3D. However, as yet, a gap still needs to be filled in that no in-depth analysis has been performed yet on the potential of different clearing techniques for the small intestine.
Aim: The goal of this study was to identify an optimal clearing protocol for in toto imaging of mouse intestinal tissue.
Methods: Five aqueous-based clearing protocols (SeeDB2, CUBIC, ScaleS, Ce3D, and UbasM) and four organic reagent-based clearing protocols (3DISCO, iDISCO+, uDISCO, and Visikol® ) were assessed in segments of small intestine from CX3CR1GFP/GFP and wild-type mice. Following clearing, optical transparency, tissue morphology, green fluorescent protein (GFP) fluorescence retention, and compatibility with (immuno-)labeling were analyzed.
Key results: All organic reagent-based clearing protocols-except for Visikol-rendered tissue highly transparent but led to substantial tissue shrinkage and deformation. Of the aqueous-based protocols, only Ce3D yielded full-thickness tissue transparency. In addition, Ce3D displayed excellent GFP retention and preservation of tissue morphology.
Conclusions: Ce3D emerged as a most efficient protocol for enabling rapid full-thickness 3D mapping of the mouse intestinal wall.
Keywords: Ce3D; GFP preservation; in toto imaging; optical clearing; tissue morphology; tissue transparency clearing capability.
© 2019 John Wiley & Sons Ltd.
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