A Rapid Optical Clearing Protocol Using 2,2'-Thiodiethanol for Microscopic Observation of Fixed Mouse Brain

Elucidation of neural circuit functions requires visualization of the fine structure of neurons in the inner regions of thick brain specimens. However, the tissue penetration depth of laser scanning microscopy is limited by light scattering and/or absorption by the tissue. Recently, several optical clearing reagents have been proposed for visualization in fixed specimens. However, they require complicated protocols or long treatment times. Here we report the effects of 2,2'-thiodiethanol (TDE) solutions as an optical clearing reagent for fixed mouse brains expressing a yellow fluorescent protein. Immersion of fixed brains in TDE solutions rapidly (within 30 min in the case of 400-mu m-thick fixed brain slices) increased their transparency and enhanced the penetration depth in both confocal and two-photon microscopy. In addition, we succeeded in visualizing dendritic spines along single dendrites at deep positions in fixed thick brain slices. These results suggest that our proposed protocol using TDE solution is a rapid and useful method for optical clearing of fixed specimens expressing fluorescent proteins

Images of dendritic spines along a single hippocampal neuron.

<p>(a) Combination of TDE treatment and water/oil-immersion objective lens with a high NA for imaging dendritic spine shapes in deep (100 µm) regions in a fixed brain slice. (b) Connected images of dendritic spines along single pyramidal neurons extending from a depth of 30 to 100 μm from the surface of the hippocampal slice. The left inset shows a low-magnification image of the hippocampus, and the circle shows the observed neuron. (c-h) Magnified images of the dendritic spine shapes on the basal dendrite (c-e) and the apical dendrite (f-h) along the neuron shown in (b). All images are maximum projection images.</p

Enhancement of the penetration depth on two-photon microscopy.

<p>(a–d) Images of YFP-expressing neurons in the hippocampal slices of thy1-YFP-H mouse in PBS (a) and after 2 h of immersion in 30% TDE (b), 60% TDE (c), 97% TDE (d) solution. Left, three-dimensional reconstructed images; right, <i>xy</i> images at a depth of 200 µm from the slice surface. (e, f) Fluorescence intensities immediately (within 25 min) and a long time (4 days) after immersion in 30% TDE solution. (e) Plot of the mean intensity of <i>xy</i> images against the depth from the surface; (f) Maximum projection images within 25 min and after 4 days of immersion in 30% TDE solution. (g, h) Fluorescence intensities immediately (within 25 min) and a few hours (6 h) after immersion in 60% TDE solution. (g) Plot of the mean intensity of <i>xy</i> images against the depth from the surface; (h) Maximum projection images within 25 min and after 6 h of immersion in 60% TDE solution.</p