Intestinal perfusion indicates high reliance on paracellular nutrient absorption in an insectivorous bat Tadarida brasiliensis

EDWIN R. PRICE; ANTONIO BRUN; VERÓNICA FASULO ; WILLIAM H. KARASOV A,; ENRIQUE CAVIEDES-VIDAL

COMPARATIVE BIOCHEMISTRY AND PHYSIOLOGY A-MOLECULAR AND INTEGRATIVE PHYSIOLOGY

ELSEVIER SCIENCE INC

Lugar: Amsterdam; Año: 2012 vol. 164 p. 351 - 355

1095-6433

Flying vertebrates have been hypothesized to have a high capacity for paracellular absorption of nutrients. This could be due to high permeability of the intestines to nutrient-sized molecules (i.e., in the size range of amino acids and glucose, MW 75?180 Da). We performed intestinal luminal perfusions of an insectivorous bat, Tadarida brasiliensis. Using radio-labeled molecules, we measured the uptake of two nutrients absorbed by paracellular and transporter-mediated mechanisms (L-proline, MW 115 Da, and D-glucose, MW 180 Da) and two carbohydrates that have no mediated transport (L-arabinose, MW 150 Da, and lactulose, MW 342 Da). Absorption of lactulose (0.61±0.06 nmol min−1 cm−1) was significantly lower than that of the small- er arabinose (1.09±0.04 nmol min−1 cm−1). Glucose absorption was significantly lower than that of proline at both nutrient concentrations (10 mM and 75 mM). Using the absorption of arabinose to estimate the portion of proline absorption that is paracellular, we calculated that 25.1±3.0% to 66.2±7.8% of proline absorption is not transporter-mediated (varying proline from 1 mM to 75 mM). These results confirm our predictions that 1) paracellular absorption is molecule size selective, 2) absorption of proline would be greater than glucose absorption in an insectivore, and 3) paracellular absorption represents a large fraction of total nutrient absorp- tion in bats