Abstract
Human donor milk (HDM) provides appropriate nutrition and offers protective functions in preterm infants. The aim of the study is to examine the impact of different storage conditions on the stability of the human breast milk peptidome. HDM was directly frozen at −80 °C or stored at −20 °C (120 h), 4 °C (6 h), or room temperature (RT for 6 or 24 h). The milk peptidome was profiled by mass spectrometry after peptide collection by ultrafiltration. Profiling of the peptidome covered 3587 peptides corresponding to 212 proteins. The variance of the peptidome increased with storage temperature and time and varied for different peptides. The highest impact was observed when samples were stored at RT. Smaller but significant effects were still observed in samples stored at 4 °C, while samples showed highest similarity to those immediately frozen at −80 °C when stored at −20 °C. Peptide structures after storage at RT for 24 h point to the increased activity of thrombin and other proteases cleaving proteins at lysine/arginine. The results point to an ongoing protein degradation/peptide production by milk-derived proteases. They underline the need for immediate freezing of HDM at −20 °C or −80 °C to prevent degradation of peptides and enable reproducible investigation of prospectively collected samples.
Highlights
The composition of breast milk includes bioactive factors required to provide appropriate nutrition for developmental processes and offers simultaneously protective functions for the children as well as the mammary glands during lactation [1,2,3]
Analysis of the milk samples A–D immediately stored at −80 ◦ C revealed quantitative data on 3237 peptides corresponding to 204 proteins (Table S1)
We breast milk peptidome in conditions probably to breast milk at home, in practices, in hospitals, analyzed the breast milk peptidome in conditions probably applied to breast milk at home, in in milk banks, or during transport of samples collected from research cohorts
Summary
The composition of breast milk includes bioactive factors required to provide appropriate nutrition for developmental processes and offers simultaneously protective functions for the children as well as the mammary glands during lactation [1,2,3]. Many observational studies indicate that a mother’s own milk compared to term or preterm formula confers protection against invasive infection and necrotizing enterocolitis (NEC), resulting in reduced mortality in preterm infants [4,5,6]. Cochrane meta-analysis found evidence that human donor milk (HDM), compared to formula significantly reduced rates of NEC [7]. A recent meta-analysis indicated protection against infections in children, increases in intelligence, and probable reductions in overweight and diabetes. For nursing women, breastfeeding gave protection against breast cancer, and it might
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