Renal handling of [(14)C]mannose

Mannose enters mammalian cells using a specific transporter that is insensitive to glucose

The concentration of D-mannose in serum is 20-50 micron, but its physiological significance for glycoprotein synthesis is unknown. Here, we show that the uptake of D-mannose by different mammalian cell lines involves a mannose-specific transporter(s) with a K(uptake) of about 30-70 micron and a V(max) which is probably sufficient to account for the bulk of mannose needed for glycoprotein synthesis. Mannose uptake appears to be through a facilitated transport process since it is not inhibited by cyanide. Phloretin completely inhibits mannose uptake, but phloridzin inhibits only 25-30%. Both of these inhibitors can block 2-deoxyglucose uptake in fibroblasts which occurs through the typical glucose transporters. None of 9 other sugars tested inhibited mannose transport. Most importantly, 5 mM D-glucose only inhibits mannose uptake by 50% showing that it is not an efficient competitor. These results suggest that this transporter(s) may use serum mannose for glycoprotein synthesis.

Kinetic characterization of Na+/D-mannose cotransport in dog kidney: comparison with Na+/D-glucose cotransport

Brush-border membrane vesicles (BBMV) prepared from whole dog kidney cortex, or separately from outer cortex (OC) and outer medulla (OM), were used to study the kinetics and inhibition specificity of Na(+)-dependent D-mannose cotransport. In BBMV from whole cortex the measured parameters for Na+/D-mannose uptake were Km = 0.07 +/- 0.01 mM and Vmax = 4.19 +/- 0.24 nmol/mg protein per min (n = 36). In OC BBMV the Km for Na+/D-mannose was 0.04 mM, Vmax = 3.41 nmol/mg per min. In OM the Km was 0.06 +/- 0.02 mM Vmax = 0.18 nmol/mg per min. Thus only about 5% of Na+/D-mannose activity occurs in OM. Both mannoheptulose (Ki = 5.6 mM) and methyl alpha-D-mannoside (Ki = 0.05 mM) are competitive inhibitors of Na+/D-mannose uptake, but at comparable concentrations have little effect on Na+/D-glucose uptake. Phlorizin is a noncompetitive inhibitor of Na+/D-mannose uptake (Ki = 4.45 microM) but a more potent and competitive inhibitor (Ki = 0.58 microM) of Na+/D-glucose uptake. Phloretin (Ki = 104 microM) is a noncompetitive inhibitor of Na+/D-mannose uptake in BBMV. We conclude that Na+/D-mannose uptake is mediated by a unique high-affinity carrier located in the OC presumably at the luminal surface of the proximal convoluted tubule, with strong specificity requirements for sugars with mannose-like structures (i.e., axial C-2 hydroxyl group). Phlorizin is an inhibitor of both Na+/D-mannose and Na+/D-glucose cotransporters but is approx. 10 times less potent for the Na+/D-mannose system and also has a different mode of inhibition (i.e., noncompetitive vs. competitive). The different phlorizin inhibitory mechanisms on the Na+/D-glucose and Na+/D-mannose cotransporters may be mediated by distinct hydrophobic and sugar binding sites that characterize phlorizin-carrier interaction.