The large intestine of breast‐fed infants is colonized predominantly by bifidobacteria, which have a protective effect against acute diarrhea. In this study we report for the first time the identification of human milk peptides that selectively stimulate the growth of bifidobacteria. Several bifidogenic peptides were purified chromatographically from pepsin‐treated human milk and identified as proteolytically generated fragments from the secretory component of the soluble polyimmunoglobulin receptor and lactoferrin; both of these proteins exhibit antimicrobial effects. Hydrolysis of the identified peptides with the gastrointestinal proteases pepsin, trypsin and chymotrypsin did not lead to the loss of bifidogenic activity, indicating their potential function in vivo. Sequential comparison revealed a similar structural motif within the identified peptides. A correspondingly designed small peptide (prebiotic lactoferrin‐derived peptide‐I, PRELP‐I) was found to stimulate the growth of bifidobacteria as effectively as the native peptides. The combination of antimicrobial and bifidobacterial growth stimulatory activity in human milk proteins leads to highly specific compounds capable of regulating the microbial composition of infants' large intestine.
Glyceraldehyde-3-phosphate dehydrogenase (GAPDH) plays an important role in glycolysis but also in non-metabolic processes, including transcription activation and apoptosis. We report the isolation of an hGAPDH (2-32) fragment peptide from human placental tissue exhibiting antimicrobial activity. The peptide was internalized by cells of the pathogenic yeast Candida albicans and initiated a rapid apoptotic mechanism, leading to killing of the fungus. Killing was dose-dependent, with 10 µg/ml (3.1 µM) and 100 µg/ml hGAPDH (2-32) depolarizing 45% and 90% of the fungal cells in a population, respectively. Experimental C. albicans infection induced epithelial hGAPDH (2-32) expression. Addition of the peptide significantly reduced the tissue damage as compared to untreated experimental infection. Secreted aspartic proteinases (Saps) activity of C. albicans was inhibited by the fragment at higher concentrations with an ED50 of 160 mg/l (50 μM) for Sap1p and 200 mg/l (63 μM) for Sap2p while Sap3 was not inhibited at all. Interestingly, hGAPDH (2-32) induced significant epithelial IL-8 and GM-CSF secretion and stimulated TLR4 expression at low concentrations independently of the presence of C. albicans without any toxic mucosal effects.
In the future, the combination of different antifungal strategies, e.g. a conventional fungicidal with immunomodulatory effects and the inhibition of fungal virulence factors might be a promising treatment option.
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