Abstract
The microbial communities colonize the mucosal immune inductive sites could be captured by hosts, which could initiate the mucosal immune responses. The aggregated lymphoid nodule area (ALNA) and the ileal Payer’s patches (PPs) in Bactrian camels are both the mucosal immune inductive sites of the gastrointestinal tract. Here, the bacteria community associated with the ALNA and ileal PPs were analyzed using of 16S rDNA-Illumina Miseq sequencing. The mutual dominant bacterial phyla at the two sites were the Bacteroidetes, Firmicutes, Verrucomicrobia and Proteobacteria, and the mutual dominant genus in both sits was Prevotella. The abundances of the Fibrobacter, Campylobacter and RFP12 were all higher in ALNA than in ileal PPs. While, the abundances of the 5-7N15, Clostridium, and Escherichia were all higher in ileal PPs than in ALNA. The results suggested that the host’s intestinal microenvironment is selective for the symbiotic bacteria colonizing the corresponding sites, on the contrary, the symbiotic bacteria could impact on the physiological functions of this local site. In ALNA and ileal PPs of Bactrian camel, the bacteria which colonized different immune inductive sites have the potential to stimulate different immune responses, which is the result of the mutual selection and adaptation between microbial communities and their host.
Highlights
Commensal microbiota densely colonize the mammalian gastrointestinal mucosal surface
The studies on the bacterial community in the gastrointestinal tract of camels mainly focused on rumen, intestines, and/or feces, and the results suggested that the composition of microbial community in the rumen of a camel was similar to other ruminants with differences in the abundance, there were different metagenomic profiles in different digestive tract regions [19, 20]
After the abdominal cavity was opened, the whole abomasum and ileum were cut, and their food residues were gently washed with sterilized saline, the mucus was quickly scraped from the mucosal surface of aggregated lymphoid nodule area (ALNA) and ileal Peyer’s patches (PPs) in each Bactrian camel under a sterile operation
Summary
Commensal microbiota densely colonize the mammalian gastrointestinal mucosal surface They can even reach 1012 cells/g and the number of species is up to 500–1000 in colon contents [1,2,3], and their encoding genes are more than their hosts’ genome [4]. Some Clostridium could induce regulatory T (Treg) cells to exert the systemic anti-inflammatory effect [6, 7].
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