Abstract
Breastfeeding influences the immune system development in infants and may even affect various immunological responses later in life. Breast milk provides a rich source of early nutrition for infant growth and development. However, the presence of certain compounds in breast milk, related to an unhealthy lifestyle or the diet of lactating mothers, may negatively impact infants. Based on a cohort study of atopic dermatitis (AD), we find the presence of damage-associated molecular patterns (DAMPs) activity in the mother’s milk. By non-targeted metabolomic analysis, we identify the long-chain saturated fatty acids (LCSFA) as a biomarker DAMPs (+) breast milk samples. Similarly, a mouse model in which breastfed offspring are fed milk high in LCSFA show AD onset later in life. We prove that LCSFA are a type of damage-associated molecular patterns, which initiate a series of inflammatory events in the gut involving type 3 innate lymphoid cells (ILC3s). A remarkable increase in inflammatory ILC3s is observed in the gut, and the migration of these ILC3s to the skin may be potential triggers of AD. Gene expression analysis of ILC3s isolated from the gut reveal upregulation of genes that increase ILC3s and chemokines/chemokine receptors, which may play a role in ILC migration to the skin. Even in the absence of adaptive immunity, Rag1 knockout mice fed a high-LCSFA milk diet develop eczema, accompanied by increased gut ILC3s. We also present that gut microbiota of AD-prone PA milk-fed mice is different from non-AD OA/ND milk-fed mice. Here, we propose that early exposure to LCSFAs in infants may affect the balance of intestinal innate immunity, inducing a highly inflammatory environment with the proliferation of ILC3s and production of interleukin-17 and interleukin-22, these factors may be potential triggers or worsening factors of AD.
Highlights
Breastfeeding influences the immune system development in infants and may even affect various immunological responses later in life
Trafficking and migration of pro-inflammatory innate lymphoid cells type3 (ILC3) from small intestine to skin potentiates incidence of atopic dermatitis (AD) in palmitic acid (PA)-milk mice. (a) Skin lymphocytes were isolated from PA milk mice with eczema or oleic acid (OA) milk mice, and directly injected into the dorsal skin of healthy recipient mice. (b) Gut Innate lymphoid cells (ILCs) were sorted from intraepithelial cells (IELs) and lamina propria (LP) of PA milk or OA milk mice, labelled with Qtracker (Red) and performed adoptive transfer by intravenous injection into healthy recipient mice. (c) KikGR transgenic mice were subjected to surgery, where the small intestine was taken out and treated with UV at 400 nm (USIO SP-11)
The presence of the red-photoconverted intestinal lymphocytes on the dorsal skin were detected by fluorescence microscopy (NightOwl, Berthold technologies). **P < 0.01, one-way ANOVA. (d) The ratio of red to the green fluorescence areas on the dorsal skin (n = 5 mice/group) was calculated using the IndiGO software. (*P < 0.05). (e) Dorsal skin of KikGR post-surgery mice with red-photoconverted cells were subjected to cell sorting for RED+ cells
Summary
Breastfeeding influences the immune system development in infants and may even affect various immunological responses later in life. Breast milk serves as an optimum food for infants in the early postnatal period and provides immunologic protection against many infections but may influence the development of the newborn immune system[6,7,8,9]. Influence of dietary/breast milk fatty acid on atopic dermatitis was reported as “no association”[21], which described mainly n-3 and n-6 long-chain polyunsaturated fatty acid (LC-PUFA). These pro/con claims are difficult to prove, because immune system dysregulation is multifactorial in origin and may be asymptomatic for several years after weaning. This innate immune system is programed to recognize series of molecular patterns: (i) pathogen‐associated molecular patterns (PAMPs), and (ii) damage‐associated molecular patterns (DAMPs)[29,30,31,32]
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