This decline in expression was also detected for apical aquaporin

This decline in expression was also detected for apical aquaporin-2 in CCRCC tumor cells (Figure 3B). Galectin-3, on the other hand, could be well detected in the cytosol as well as in nuclei of most of the non-polar tumor cells. Figure 3 Confocal fluorescence images showing the distribution of galectin-3 and different polarity markers in normal kidney and tissue from clear cell renal cell carcinoma. All sections were immunostained against apical aquaporin-2 (AQP-2)

and villin or basolateral E-cadherin. In all fluorescence images the polarity markers are indicated in green, galectin-3 is depicted in red and the nuclei are stained H 89 ic50 with Hoechst 33342 (blue). In normal kidney sections aquaporin-2 is concentrated on the apical PLX4032 price domain of epithelial

cells of the collecting duct, whereas villin is part of the brush border of the proximal tubule. E-cadherin can be detected in cells of the distal tubule and the collecting duct. Arrows mark the apical localization of AQP-2 and villin (A, C) or the basolateral localization of E-cadherin (E). In all tissue sections of the tumor the expression of the polarity markers is reduced or completely lost. In normal kidney areas, galectin-3 is found in the collecting duct as well as in the distal tubule, but not in the proximal tubule. Stars depict single cells, in which galectin-3 is expressed. Scale bars: 25 μm. 3.4 Nuclear accumulation of galectin-3 in CCRCC tumor cells To determine if galectin-3 was enriched in the nuclei Trametinib purchase of tumor cells, we recorded the fluorescence of galectin-3 staining in image stacks of whole cells in normal as well as in CCRCC tumor tissues. This approach verifies that the whole fluorescence

of a cell is registered and excludes misinterpretations due to fluorescence detection Axenfeld syndrome restricted to a single focal plane. The 3D-reconstructions depicted in Figure 4A show a concentration of galectin-3 in the Hoechst-stained cell nuclei of tumor cells, whereas the lectin was mainly distributed in the cytosol of normal renal epithelial cells. Figure 4 Nuclear localization of galectin-3 in normal and tumor tissue samples. A. Immunofluorescence of galectin-3 and nuclear Hoechst was recorded in different layers of normal and CCRCC tissues. The recorded image stacks were processed by deconvolution and background elimination. Dual colors are depicted in the 3D-reconstructed images. On the left galectin-3 (red) is shown; nuclei are depicted in blue. Images without nuclear staining are depicted on the right. Scale bars: 15 μm. B. Immunoblots of nuclear lamin and LDH in isolated nuclei or cytosolic fractions. C. Imunoblots of galectin-3 or lamin in nuclear or cytosolic fractions from normal or tumor tissue. D. Relative changes in nuclear versus cytosolic localization as quantified from 9 immunoblots from normal or CCRCC tissues are depicted.

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