Credit: CC0 Public Domain
"Our findings demonstrate that high levels of GML are unique to human breast milk and strongly inhibit growth of pathogenic bacteria," said Donald Leung, MD, Ph.D., professor of pediatrics at National Jewish Health and senior author on a paper in Scientific Reports.
'While antibiotics can fight bacterial infections in infants, they kill the beneficial bacteria along with the pathogenic ones," said Patrick Schlievert, Ph.D., professor of microbiology and immunology at the University of Iowa Carver College of Medicine and first author on the Scientific Reports paper. "GML is much more selective, fighting only the pathogenic bacteria while allowing beneficial species to thrive. We think GML holds great promise as a potential additive to cows' milk and infant formula that could promote the health of babies around the world."
After determining that human breast milk contains much higher levels of GML than does cows' milk, the researchers showed that human breast milk inhibits the growth of the pathogenic bacteria Staphylococcus aureus, Bacillus subtilis and Clostridium perfringens, while neither cows' milk nor infant formula had any effect. Human breast milk did not inhibit the growth of the beneficial bacteria Enterococcus faecilis. Babies fed on human breast milk have high levels of beneficial bifidobacteria, lactobacilli and enterococci bacterial species.
When researchers remove the GML from human breast milk, it lost its antimicrobial activity against S. aureus. When they added GML to cows' milk, it became antimicrobial.
The researchers also showed that GML inhibits inflammation in epithelial cells, which line the gut and other mucosal surfaces. Inflammation can damage epithelial cells and contribute to susceptibility to both bacterial and viral infections.
Drs. Schlievert and Leung have applied for a patent for the use of GML as a beneficial additive to cows' milk and infant formula.
Recommend this post and follow The birth of Modern Man
No comments:
Post a Comment