Although the bioavailability of large peptides with biological activity is of great interest, the intestinal transport has been described for peptides up to only nine residues. β-casein (β-CN, 193-209) is a long and hydrophobic peptide composed of 17 amino acid residues (molecular mass 1881 Da) with immunomodulatory activity. The present work examined the transport of the β-CN (193-209) peptide across Caco-2 cell monolayer. In addition, we evaluated the possible routes of the β-CN (193-209) peptide transport, using selective inhibitors of the different routes for peptide transfer through the intestinal barrier. The results showed that the β-CN (193-209) peptide resisted the action of brush-border membrane peptidases, and that it was transported through the Caco-2 cell monolayer. The main route involved in transepithelial transport of the β-CN (193-209) peptide was transcytosis via internalized vesicles, although the paracellular transport via tight-junctions could not be excluded. Our results demonstrated the transport of an intact long-chain bioactive peptide in an in vitro model of intestinal epithelium, as an important step to prove the evidence for bioavailability of this peptide.
The (193-209) 17-residues peptide of bovine b-casein is transported through Caco-2 monolayer
REGAZZO, DANIELA;GABAI, GIANFRANCO;
2010
Abstract
Although the bioavailability of large peptides with biological activity is of great interest, the intestinal transport has been described for peptides up to only nine residues. β-casein (β-CN, 193-209) is a long and hydrophobic peptide composed of 17 amino acid residues (molecular mass 1881 Da) with immunomodulatory activity. The present work examined the transport of the β-CN (193-209) peptide across Caco-2 cell monolayer. In addition, we evaluated the possible routes of the β-CN (193-209) peptide transport, using selective inhibitors of the different routes for peptide transfer through the intestinal barrier. The results showed that the β-CN (193-209) peptide resisted the action of brush-border membrane peptidases, and that it was transported through the Caco-2 cell monolayer. The main route involved in transepithelial transport of the β-CN (193-209) peptide was transcytosis via internalized vesicles, although the paracellular transport via tight-junctions could not be excluded. Our results demonstrated the transport of an intact long-chain bioactive peptide in an in vitro model of intestinal epithelium, as an important step to prove the evidence for bioavailability of this peptide.Pubblicazioni consigliate
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