Amsterdam, July 2, 2015 - Biologically active molecules released by digesting bread and pasta can survive digestion and potentially pass through the gut lining, suggests new research. The study, published in the journal of Food Research International, reveals the molecules released when real samples of bread and pasta are digested, providing new information for research into gluten sensitivity.
The research is in vitro - in the lab rather than in humans - and the authors of the study, from the University of Milan, Italy, say that more research is needed to determine what biological effect these molecules have on the body once they pass into the bloodstream.
"Previous lab tests have been done on pure gluten, but for the first time we have simulated digestion using real bread and pasta bought from the supermarket to see if these molecules are produced," said Dr. Milda Stuknyt?, one of the authors of the study. "We show that not only are these molecules produced during digestion, but they can also pass through the gut lining, suggesting that they could indeed have a biological effect."
The wheat proteins and molecules produced during digestion are involved in causing gluten intolerance and sensitivity, which has led to bread and pasta becoming the focus of many popular diets. An estimated 1% of the population suffers with celiac disease or wheat allergy. Non-celiac gluten sensitivity affects around six times more people than celiac disease, according to the National Foundation of Celiac Awareness, yet relatively little is known about the mechanisms that cause it.
The molecules produced during gluten digestion include exorphins, which have also been found in the spinal fluid of people with schizophrenia and autism, and are thought to worsen the symptoms of these neurological diseases. They are similar to opioid molecules, so it's possible they could have a drug-like effect on the brain.
Until now there has been no evidence showing that the molecules are produced during digestion of real foods. The new research reveals that two of these molecules - called exorphins A5 and C5 - are released during digestion of real bread and pasta, and that they can survive digestion and pass through an in vitro model of the intestinal lining.
"We chose to study bread and pasta because they represent such a significant part of our diet, especially in Italy," said Dr. Stuknyt?. "While we know quite a lot about the mechanisms of celiac disease and how it's connected to gluten, we still know relatively little about non-celiac gluten sensitivity. It's just as important, and our research provides further insight into the proteins and the derived peptides that could be involved."
The researchers bought two kinds of sliced bread and four kinds of dried spaghetti to digest, from a commercial market. They cooked the spaghetti according to manufacturers' guidelines, and then digested each sample using a simulated digestion system in the lab.
The levels of the two molecules following digestion were quite different, with twice as much C5 being produced compared to A5; up to 1 milligram of C5 was produced from the in vitro digestion of a single serving size of pasta.
"We were surprised to find such a high amount of C5 in some of the pasta samples," said Dr. Stuknyt?. "We still don't know what effect this amount could have, but it's plausible that it could have a potential opioid effect in humans."
The researchers now plan to investigate what happens to the molecules as they are transported through the digestive system, from the intestine into the blood.
"Our research is just in vitro at this stage, we have a long way to go in terms of discussing the potential biological effects of these molecules, especially in humans," said Dr. Stuknyt?.
The findings presented in the paper are the result of a collaboration between two research groups at the University of Milan: the first led by Prof. Ivano De Noni in the Department of Food, Environmental and Nutritional Sciences (DeFENS), and the second led by Prof. Anita Ferraretto in the Department of Biomedical Sciences for Health.
For more information go to: Elsevier Connect
"Release of wheat gluten exorphins A5 and C5 during in vitro gastrointestinal digestion of bread and pasta and their absorption through an in vitro model of intestinal epithelium" by Milda Stuknyt?, Margherita Maggioni, Stefano Cattaneo, Paola De Luca, Amelia Fiorilli, Anita Ferraretto and Ivano De Noni (doi:10.1016/j.foodres.2015.04.002). The article has appeared in Food Research International, Volume 72 (June 2015), published by Elsevier.
A copy of the paper is available to credentialed journalists upon request; contact Elsevier's Newsroom at email@example.com or +31 20 4853564.
About Food Research International
A journal of the Canadian Institute of Food Science and Technology (CIFST), Food Research International provides a forum for the rapid dissemination of significant novel and high impact research in food science, technology, engineering and nutrition. The journal publishes papers in the various disciplines encompassing the science and technology of food. Food Research International has been developed to create a truly international forum for the communication of research in food science.
Elsevier is a world-leading provider of information solutions that enhance the performance of science, health, and technology professionals, empowering them to make better decisions, deliver better care, and sometimes make groundbreaking discoveries that advance the boundaries of knowledge and human progress. Elsevier provides web-based, digital solutions -- among them ScienceDirect, Scopus, Elsevier Research Intelligence and ClinicalKey -- and publishes over 2,500 journals, including The Lancet and Cell, and more than 33,000 book titles, including a number of iconic reference works. Elsevier is part of RELX Group plc, a world-leading provider of information solutions for professional customers across industries.