Journal
NUTRIENTS
Volume 15, Issue 14, Pages -Publisher
MDPI
DOI: 10.3390/nu15143284
Keywords
exosome; human milk; colostrum; miRNAs; small RNA sequencing; nervous system; neurodevelopment
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Human milk is rich in miRNAs and exosomes, which play significant roles in neurodevelopment and normal function. Through analyzing human breast milk samples, we identified 132 different miRNAs, 69 of which showed significant differential expression. These miRNAs are involved in gene regulation related to synaptic activity and neuron projection morphogenesis. Our findings suggest that human milk can transmit molecular and biological information for brain development.
Human milk is the biological fluid with the highest exosome amount and is rich in microRNAs (miRNAs). These are key regulators of gene expression networks in both normal physiologic and disease contexts, miRNAs can influence many biological processes and have also shown promise as biomarkers for disease. One of the key aspects in the regeneration of the nervous system is that there are practically no molecules that can be used as potential drugs. In the first weeks of lactation, we know that human breast milk must contain the mechanisms to transmit molecular and biological information for brain development. For this reason, our objective is to identify new modulators of the nervous system that can be used to investigate neurodevelopmental functions based on miRNAs. To do this, we collected human breast milk samples according to the time of delivery and milk states: mature milk and colostrum at term; moderate and very preterm mature milk and colostrum; and late preterm mature milk. We extracted exosomes and miRNAs and realized the miRNA functional assays and target prediction. Our results demonstrate that miRNAs are abundant in human milk and likely play significant roles in neurodevelopment and normal function. We found 132 different miRNAs were identified across all samples. Sixty-nine miRNAs had significant differential expression after paired group comparison. These miRNAs are implicated in gene regulation of dopaminergic/glutamatergic synapses and neurotransmitter secretion and are related to the biological process that regulates neuron projection morphogenesis and synaptic vesicle transport. We observed differences according to the delivery time and with less clarity according to the milk type. Our data demonstrate that miRNAs are abundant in human milk and likely play significant roles in neurodevelopment and normal function.
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