2'-fucosyllactose: an abundant, genetically determined soluble glycan present in human milk.

Lactose is the preeminent soluble glycan in milk and a significant source of energy for most newborn mammals. Elongation of lactose with additional monosaccharides gives rise to a varied repertoire of free soluble glycans such as 2'-fucosyllactose (2'-FL), which is the most abundant oligosaccharide in human milk. In infants, 2'-FL is resistant to digestion and reaches the colon where it is partially fermented, behaving as soluble prebiotic fiber. Evidence also suggests that portions of small soluble milk glycans, including 2'-FL, are absorbed, thus raising the possibility of systemic biological effects. 2'-FL bears an epitope of the Secretor histo-blood group system; approximately 70-80% of all milk samples contain 2'-FL, since its synthesis depends on a fucosyltransferase that is not uniformly expressed. The fact that some infants are not exposed to 2'-FL has helped researchers to retrospectively probe for biological activities of this glycan. This review summarizes the attributes of 2'-FL in terms of its occurrence in mammalian phylogeny, its postulated biological activities, and its variability in human milk.

ILSI Brazil International Workshop on Functional Foods: a narrative review of the scientific evidence in the area of carbohydrates, microbiome, and health.

To stimulate discussion around the topic of 'carbohydrates' and health, the Brazilian branch of the International Life Sciences Institute held the 11th International Functional Foods Workshop (1-2 December 2011) in which consolidated knowledge and recent scientific advances specific to the relationship between carbohydrates and health were presented. As part of this meeting, several key points related to dietary fiber, glycemic response, fructose, and impacts on satiety, cognition, mood, and gut microbiota were realized: 1) there is a need for global harmonization of a science-based fiber definition; 2) low-glycemic index foods can be used to modulate the postprandial glycemic response and may affect diabetes and cardiovascular outcomes; 3) carbohydrate type may influence satiety and satiation; glycemic load and glycemic index show links to memory, mood, and concentration; 4) validated biomarkers are needed to demonstrate the known prebiotic effect of carbohydrates; 5) negative effects of fructose are not evident when human data are systematically reviewed; 6) new research indicates that diet strongly influences the microbiome; and 7) there is mounting evidence that the intestinal microbiota has the ability to impact the gut-brain axis. Overall, there is much promise for development of functional foods that impact the microbiome and other factors relevant to health, including glycemic response (glycemic index/glycemic load), satiety, mood, cognition, and weight management.

Profiles of human milk oligosaccharides and production of some human milk oligosaccharides in transgenic animals.

During the decade of the 1990s and the first years of the current century, our group embarked on a project to study and synthesize human milk oligosaccharides. This report describes 2 unexpected collateral observations from that endeavor. The first observation was the detection and confirmation of 2 rare neutral human milk oligosaccharides profiles that were uncovered while assessing oligosaccharide content in hundreds of samples of human milk. One of these lacked fucosylated structures altogether, and the other lacked the oligosaccharide 3-fucosyllactose [Galß1-4(Fucα1-3)Glc]. We used glycoconjugate probes to determine whether the unusual profiles were mirrored by fucosylation of milk glycoproteins. The results show that the lack of fucosylated oligosaccharides in these samples corresponds to the absence of equivalent fucosylated motifs in milk glycoproteins. The second finding was a shortened and distinct lactation process in transgenic rabbits expressing the human fucosyltransferase 1. During the first day of lactation, these animals expressed milk that contained both lactose and 2'-fucosylactose, but on the second day, the production of milk was severely diminished, and by the fourth day, no lactose was detected in their milk. Meanwhile, the concentration of fucosylated glycoproteins increased from the onset of lactation through its premature termination. These 2 findings may shed light on the glycobiology of milk and perhaps on mammary gland differentiation.