BACKGROUND: Based on studies in animals, it has been proposed that carrier-mediated D-glucose absorption markedly enhances passive permeability of the jejunal mucosa, allowing the majority of D-glucose absorption to proceed passively. In this study, we evaluated this hypothesis in the human jejunum in vivo. METHODS: Using the constant perfusion, nonabsorbable marker technique, permeability of jejunal mucosa was assessed by measuring the ratio of diffusion rates of urea/L-xylose and mannitol/L-xylose. Passive D-glucose absorption was quantitated using L-glucose and mannitol as probes for D-glucose. RESULTS: Addition of D-glucose to perfused solutions did not change the diffusion ratios, indicating that D-glucose has no effect on the size of channels for passive diffusion across the jejunal mucosa. The fraction of total D-glucose absorption that could be attributed to a passive mechanism averaged 5%. In the human ileum in vivo, we detected no evidence of passive D-glucose absorption. CONCLUSIONS: Carrier-mediated D-glucose absorption does not increase passive permeability of human jejunal mucosa to solutes with molecular radii between 2.6 and 4.0 A. The amount of D-glucose absorbed passively from the human jejunum is trivial compared with the overwhelmingly dominant mechanism, carrier-mediated transport. Our results do not support the concept that sodium-dependent nutrient transport increases tight junction permeability.
BACKGROUND: Based on studies in animals, it has been proposed that carrier-mediated D-glucose absorption markedly enhances passive permeability of the jejunal mucosa, allowing the majority of D-glucose absorption to proceed passively. In this study, we evaluated this hypothesis in the human jejunum in vivo. METHODS: Using the constant perfusion, nonabsorbable marker technique, permeability of jejunal mucosa was assessed by measuring the ratio of diffusion rates of urea/L-xylose and mannitol/L-xylose. Passive D-glucose absorption was quantitated using L-glucose and mannitol as probes for D-glucose. RESULTS: Addition of D-glucose to perfused solutions did not change the diffusion ratios, indicating that D-glucose has no effect on the size of channels for passive diffusion across the jejunal mucosa. The fraction of total D-glucose absorption that could be attributed to a passive mechanism averaged 5%. In the human ileum in vivo, we detected no evidence of passive D-glucose absorption. CONCLUSIONS: Carrier-mediated D-glucose absorption does not increase passive permeability of human jejunal mucosa to solutes with molecular radii between 2.6 and 4.0 A. The amount of D-glucose absorbed passively from the human jejunum is trivial compared with the overwhelmingly dominant mechanism, carrier-mediated transport. Our results do not support the concept that sodium-dependent nutrient transport increases tight junction permeability.
Authors: O J Hines; E E Whang; A J Bilchik; M J Zinner; M L Welton; J Lane; D W McFadden; S W Ashley Journal: Dig Dis Sci Date: 2000-01 Impact factor: 3.199
Authors: Verónica Fasulo; ZhiQiang Zhang; Juan G Chediack; Fabricio D Cid; William H Karasov; Enrique Caviedes-Vidal Journal: J Comp Physiol B Date: 2012-08-08 Impact factor: 2.200