Digestive fate of dietary carrageenan: Evidence of interference with digestive proteolysis and disruption of gut epithelial function.

Abstract

The objective of this study was to interrogate two mechanisms by which commercial Carrageenans (E407) (CGN) may adversely affect human health: (i) Through modification of gastric proteolysis and (ii) Through affecting gut epithelial structure and function. Three commercial CGN samples with distinct zeta-potentials (stable at the pH range of 3-7 and varied with physiological levels of CaCl2 ) were mixed with milk, soy or egg protein isolates, then subjected to a semi-dynamic in vitro digestion model and analyzed by SDS-PAGE. This revealed varying levels of interference with gastric digestive proteolysis and a significant decrease in pepsin activity. Further, a Caco-2 cell model was used to explore various effects of physiologically digested CGN (pdCGN) on various epithelial cell functions and characteristics. Samples of pdCGN (0.005-0.5 mg/mL) affected the epithelial barrier function, including redistribution of the tight-junction protein Zonula Occludens (Zo)-1, changes in cellular F-actin architecture and increased monolayer permeability to the transfer of macromolecules. Moreover, pdCGN induced elevation in the levels of the pro-inflammatory IL-8 receptor CXCR1. This work raises the possibility that CGN may reduce protein and peptide bioaccessibility, disrupt normal epithelial function, promote intestinal inflammation, and consequently compromise consumer health.