Abstract
1. The aerobic accumulation of various monosaccharides in slices of rabbit kidney cortex at 25 degrees was studied. 2. d-Fructose and alpha-methyl d-glucoside were readily accumulated against their concentration gradient by a phlorrhizin-sensitive Na(+)-dependent active transport. In the absence of external Na(+) the maximal rate of alpha-methyl glucoside transport was decreased tenfold, the K(m) of entry into the cells (8.2mm) not being affected. Phlorrhizin and d-galactose inhibited the entry of alpha-methyl glucoside also in the absence of external Na(+). 3. d-Xylose, 6-deoxy-d-glucose and 6-deoxy-d-galactose were poorly accumulated ([S](i)/[S](o) ratios slightly above 1.0); this transport was inhibited by phlorrhizin and by the absence of Na(+). 4. 3-O-Methyl-d-glucose, d-arabinose and l-arabinose were not actively transported, [S](i)/[S](o) ratios never exceeding 1.0. 5. 2-Deoxy-d-glucose and 2-deoxy-d-galactose were readily accumulated against a high concentration gradient, this transport being Na(+)-independent and only slightly sensitive to phlorrhizin. External Na(+) was not required for an inhibitory action of phlorrhizin and d-galactose on the entry of 2-deoxy-d-galactose into the cells. 6. Interference for entry into the cells between the following saccharides was found: d-galactose inhibited alpha-methyl d-glucoside transport; d-xylose entry was inhibited by d-glucose; d-galactose transport was inhibited by d-xylose; a mutual interference between d-galactose and its 2-deoxy analogue was found. 7. It is concluded that d-glucose, d-galactose, alpha-methyl d-glucoside, d-xylose and possibly also some other monosaccharides share a common active transport system. 8. The specificity of the Na(+)-dependent phlorrhizin-sensitive active transport system for monosaccharides in kidney-cortex cells differs from that in intestinal epithelial cells.
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