Secretory IgA has been suggested to play a role in shaping the microbiota composition and diversity. Some early studies showed an association between the low levels of secretory IgA and the risk of developing atopy [45, 46] and could suggest that the low IgA levels permit establishment of a wider variety of bacteria and explain the higher bacterial diversity in children with eczema observed in this study. However, more recent studies have shown a higher concentration of selleck chemical secretory IgA in children with allergic sensitization during
the first 2 years of life [47, 48]. Another possible explanation for the increased bacterial diversity in children with eczema is the decreased levels or altered repertoire of antimicrobial peptides secreted into the gut lumen. These peptides, such as alpha- and beta-defensins, have at least two key roles
at the mucosal interface: contributing to the host defense against enteric bacterial attachment and homeostatic control of the intestinal PRIMA-1MET bacterial ecosystem [49, 50]. Recently, decreased alpha-defensin levels and increased beta-defensin levels were associated with increased risk of developing atopy [51]. To our knowledge, the levels of faecal antimicrobial peptides in children already having eczema have not been studied. However, a few studies have highlighted the role of alpha-defensins in microbiota composition and intestinal health. For example, genetic mutations resulting in decreased alpha-defensin expression have been associated with the susceptibility and severity of inflammatory bowel disease in humans and decreased alpha-defensins may have an effect on the differences observed in microbiota
composition between healthy and diseased subjects [52]. Interestingly, mice deficient in production of active alpha -defensins were shown to have a decrease in Bacteroidetes [50]. The reason for decreased Bacteroidetes levels in children with eczema in this study remains unaccountable, but alpha-defensins provide one possible explanation for our observation. Also other host-dependent factors, such as the amount of mucus secretion and differences in mucus glycosylation (e.g. FUT2 secretor status) may have an influence on the microbiota diversity and composition, Thalidomide as recently click here reviewed by Maynard et al. [53]. Clearly, the role of intestinal IgA levels, antimicrobial peptides and mucus secretion in shaping the gut microbiota in healthy and eczematous children warrants for further investigation. Our results emphasize that the microbiota diversity in children with eczema should be further studied by using high-resolution techniques in order to define the favourable course of bacterial succession in early childhood and toddler age and to evaluate possible means to influence it. It was observed that children with eczema harbour more bacteria belonging to the Clostridium cluster IV and Clostridium cluster XIVa. These bacteria are among the most abundant microbial groups detected in the healthy adult intestine [54].