Celiac.com 10/16/2009 - A team of researchers recently set out to investigate the ability of a polymeric binder to reverse the toxic effects induced by gliadin in human intestinal cells and gliadin-sensitive HCD4-DQ8 mice. The team was made up of Maud Pinier, Elena F. Verdu, Mohamad Nasser–Eddine, Chella S. David, Anne Vézina, Nathalie Rivard, and Jean–Christophe Leroux.
They used gliadin-sensitive HLA-HCD4/DQ8 transgenic mice to measure the effectiveness of the polymeric binder in averting gliadin-triggered intestinal barrier dysfunction. They found that Poly(hydroxyethylmethacrylate-co-styrene sulfonate) [P(HEMA-co-SS)] complexed with gliadin in a fairly precise manner.
Exposing intestinal cells to gliadin caused major changes in both cell structure and cell to cell contacts. By complexing the gliadin with P(HEMA-co-SS) the researchers were able to prevent these undesirable changes. More importantly, the P(HEMA-co-SS) inhibited gliadin digestion by gastrointestinal enzymes, which minimized the development of peptides that trigger immune adverse immune reactions.
By co-administering P(HEMA-co-SS) with gliadin to HLA-HCD4/DQ8 mice, researchers were able to eliminate gliadin-triggered changes in the gut barrier and lower intraepithelial lymphocyte and macrophage cell counts.
From these results, the team concludes that polymeric binders can prevent in vitro gliadin-induced epithelial toxicity and intestinal barrier dysfunction in HCD4/DQ8 mice. Such polymeric binders might play a significant role in the treating people with gluten-induced disorders.