Finally, A. muciniphila is a common member of the human intestinal tract which has been recently associated with a protective/anti-inflammatory role in healthy gut [44]. On the
other hand, Enterobacteriaceae have been reported to prosper in the context of a host-mediated inflammatory response [45]. Capable to venture more deeply in the mucus layer and establish a close interaction with the epithelial surface, members of Enterobacteriaceae concur in the induction of a pro-inflammatory response and further consolidate the host inflammatory status. Thus, similarly to the one characterized this website in IBD [43, 46–48], the atopy-associated microbiota can represent an inflammogenic microbial consortium which can contribute to the severity of the disease [7]. Conclusion Atopic children were depleted in specific members of the intestinal microbiota that, capable to orchestrate a broad spectrum of inflammatory and regulatory T cell responses, have been reported as fundamental for the immune homeostasis. The decrease of these key immunomodulatory symbionts in the gastrointestinal tract – as well as the corresponding increase in relative abundance of pro-inflammatory Enterobacteriaceae selleck chemicals – support the immune deregulation and, in the context of an atopic host, can sustain an inflammatory status throughout the body. Since the atopy-related dysbioses of the intestinal microbiota can contribute to
the severity of the disease, atopy treatment may be facilitated by redressing these microbiological unbalances. To this aim, advantages can be taken from the possibility to manipulate the microbiota plasticity with diet or pharmaceutical prebiotics and probiotics. However, the phylogenetic resolution of the data reported in
our study needs to be implemented by deep 16 S rDNA sequencing. Moreover, metatranscriptomic studies can be carried out. Linking the phylogenetic structure of the intestinal microbiota with its specific functional activities, the metatranscriptomic characterization of the intestinal microbiota in atopic children could reveal the possible pathogenic mechanisms behind the atopy-related microbiota dysbioses. Acknowledgments This work was funded PRKD3 by the Micro(bi)array project of the University of Bologna, Italy. Our thanks to Giada Caredda for the support in experimental phase. Electronic supplementary material Additional file 1:: Phylogenetically related groups target of the HTF-Microbi.Array. (XLSX 27 KB) Additional file 2:: Probe specificity tests for Akkermansia muciniphila. Data refer to independent duplicates obtained using 50 fmol of purified 16 S rRNA PCR product. X axis shows the ZipCode for each probe pair; in both figures, “1B” represents the ZipCode associated to A. muciniphila. Y axis shows the average fluorescence intensities (IF) for each probe pair. Fluorescence between the two replicates was not normalized. Blue stars over the fluorescence bars indicate the probes that gave a positive response with P <0.01.