Human breast milk-derived exosomes and their positive role on neonatal intestinal health.

Abstract

Although the role of breast milk in promoting neonatal growth and maintaining intestinal homeostasis is well established, underlying mechanisms by which it protects the intestine from damage remain to be elucidated. Human breast milk-derived exosomes (HMDEs) are newly discovered active signaling vesicles with a diameter of 30-150 nm, which are key carriers of biological information exchange between mother and child. In addition, due to their ability to cross the gastrointestinal barrier, low immunogenicity, good biocompatibility and stability, HMDEs play an important role in regulating intestinal barrier integrity in newborns. In addition, HMDEs possess specific properties that are reformable and modifiable, offering promising strategies for the prevention and treatment of neonatal intestinal diseases. However, challenges such as purification, complex content, and quality control hinder their clinical application. This paper provides a comprehensive review of the biogenesis and properties of HMDEs, their isolation and purification, composition, and effects on neonatal intestinal barrier function, and further explores their potential biomedical applications. IMPACT: Breast milk helps maintain intestinal homeostasis in newborns and can prevent diseases, especially necrotizing enterocolitis (NEC). Breast milk contains abundant exosomes, which are important carriers of maternal and infant biological information exchange. Breast milk have the advantages of low immunogenicity, good biocompatibility and good stability, which helps to maintain the integrity of the intestinal barrier. Exosomes can be modified, which is expected to provide a more effective strategy for the prevention and treatment of intestinal diseases.