Comparison of bovine milk oligosaccharides in native North European cattle breeds.

Milk oligosaccharides are of high interest due to their bioactive properties. This study is the first to characterise milk oligosaccharides from native North European cattle breeds, as represented by 80 milk samples collected from eight native breeds originated from Norway (Norwegian Doela cattle and Norwegian Telemark cattle), Sweden (Swedish Mountain cattle), Denmark (Danish Red anno 1970), Iceland (Icelandic cattle), Lithuania (native Lithuanian Black and White) and Finland (Western Finncattle and Eastern Finncattle). Using high-performance liquid-chromatography chip/quadrupole time-of-flight mass-spectrometry, 18 unique monosaccharide compositions and a multitude of isomers were identified. No N-glycolylneuraminic acid was identified among these breeds. Western Finncattle milk was most abundant in neutral, acidic and fucosylated oligosaccharides. Further, Eastern Finncattle milk was significantly higher in acidic oligosaccharides and Icelandic cattle milk significantly higher in fucosylated oligosaccharides, compared to the mean. This study highlights specific native breeds of particular interest for future exploitation of milk oligosaccharides and breeding strategies.

Short communication: Application of proteomics for characterization of caseinomacropeptide isoforms before and after desialidation.

Caseinomacropeptide (CMP) is an important polypeptide found in cheese whey that has various biological activities and functional properties. Because sialylations play an important role in the functional properties of CMP, the aim of the present work was to characterize CMP isoform heterogeneity in a commercial glycosylated CMP (gCMP) isolate using liquid chromatography- and gel-based proteomics before and after desialidation. Using 2-dimensional gel electrophoresis (2-DGE), we observed a shift in isoelectric point (pI) after enzymatic desialidation, indicating that sialylated gCMP were located at pI 3.0 to 3.1, but desialylated gCMP had repositioned to pI 3.7 to 3.9. We used liquid chromatography/mass spectroscopy (LC-ESI/MS) for further analysis of the glycan chains of gCMP. In total, we identified 19 CMP isoforms, of which 13 were glycosylated and 6 were nonglycosylated. We also detected 3 genetic variants (A, B, and E), with up to 3 glycosylations attached per gCMP. Further, we identified up to 4 isomers, reflecting different sites of glycosylation in the peptide backbone of these isoforms. The dominating gCMP isoform of genetic variant E appeared to contain 4 N-acetyl-neuraminic acid (NeuAc) residues, whereas the dominating gCMP isoforms of variants A and B appeared to contain 2 NeuAc. The identification revealed conversions of isoforms containing different combinations of genetic variants and degrees of glycosylation, sialylation, and phosphorylation to various desialylated counter-isoforms. The content of sialylated gCMP relative to the total CMP content was 37% (wt/wt), which decreased to 1.5% after sialidase treatment, indicating 96% effectivity of the desialidation. This approach can be valuable for future functionality studies specifically addressing the importance of NeuAc.

Naturally Occurring Glycosidases in Milk from Native Cattle Breeds: Activity and Consequences on Free and Protein Bound-Glycans.

Little is known about the extent of variation and activity of naturally occurring milk glycosidases and their potential to degrade milk glycans. A multi-omics approach was used to investigate the relationship between glycosidases and important bioactive compounds such as free oligosaccharides and O-linked glycans in bovine milk. Using 4-methylumbelliferone (4-MU) assays activities of eight indigenous glycosidases were determined, and by mass spectrometry and 1H NMR spectroscopy various substrates and metabolite products were quantified in a subset of milk samples from eight native North European cattle breeds. The results showed a clear variation in glycosidase activities among the native breeds. Interestingly, negative correlations between some glycosidases including ß-galactosidase, N-acetyl-ß-d-glucosaminidase, certain oligosaccharide isomers as well as O-linked glycans of κ-casein were revealed. Further, a positive correlation was found for free fucose content and α-fucosidase activity (r = 0.37, p-value < 0.001) indicating cleavage of fucosylated glycans in milk at room temperature. The results obtained suggest that milk glycosidases might partially degrade valuable glycans, which would result in lower recovery of glycans and thus represent a loss for the dairy ingredients industry if these activities are pronounced.