期刊
GUT MICROBES
卷 11, 期 6, 页码 1745-1757出版社
TAYLOR & FRANCIS INC
DOI: 10.1080/19490976.2020.1766936
关键词
Bacteroides thetaiotaomicron; gut microbiome; enteric nervous system; neuronal plasticity; colonic motility
资金
- Biotechnology and Biological Sciences Research Council (BBSRC) - BBSRC Institute Strategic Programme Gut Microbes and Health [BB/R012490/1, BBS/E/F/000PR10355]
- BBSRC [BBS/E/F/000PR10355] Funding Source: UKRI
Background and aims As the importance of gut-brain interactions increases, understanding how specific gut microbes interact with the enteric nervous system (ENS), which is the first point of neuronal exposure becomes critical. Our aim was to understand how the dominant human gut bacteriumBacteroides thetaiotaomicron(Bt) regulates anatomical and functional characteristics of the ENS. Methods Neuronal cell populations, as well as enteroendocrine cells, were assessed in proximal colonic sections using fluorescent immunohistochemistry in specific pathogen-free (SPF), germ-free (GF) and Bt conventionalized-germ-free mice (Bt-CONV). RNA expression of tight junction proteins and toll-like receptors (TLR) were measured using qPCR. Colonic motility was analyzed usingin vitrocolonic manometry. Results Decreased neuronal and vagal afferent innervation observed in GF mice was normalized by Bt-CONV with increased neuronal staining in mucosa and myenteric plexus. Bt-CONV also restored expression of nitric oxide synthase expressing inhibitory neurons and of choline acetyltransferase and substance P expressing excitatory motor neurons comparable to those of SPF mice. Neurite outgrowth and glial cells were upregulated by Bt-CONV. RNA expression of tight junction protein claudin 3 was downregulated while TLR2 was upregulated by Bt-CONV. The enteroendocrine cell subtypes L-cells and enterochromaffin cells were reduced in GF mice, with Bt-CONV restoring L-cell numbers. Motility as measured by colonic migrating motor complexes (CMMCs) increased in GF and Bt-CONV. Conclusion Bt, common gut bacteria, is critical in regulating enteric neuronal and enteroendocrine cell populations, and neurogenic colonic activity. This highlights the potential use of this resident gut bacteria for maintaining healthy gut function.
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