Epigenetic Regulation of Enteric Neurotransmission by Gut Bacteria

Tor C Savidge¹

Affiliations

Affiliation

¹ Department of Pathology and Immunology, Baylor College of MedicineHouston, TX, USA; Texas Children's Microbiome Center, Texas Children's Children HospitalHouston, TX, USA.

PMID: 26778967
PMCID: PMC4705220
DOI: 10.3389/fncel.2015.00503

Review

Epigenetic Regulation of Enteric Neurotransmission by Gut Bacteria

Tor C Savidge. Front Cell Neurosci. 2016.

. 2016 Jan 8:9:503.

doi: 10.3389/fncel.2015.00503. eCollection 2015.

Author

Tor C Savidge¹

Affiliation

¹ Department of Pathology and Immunology, Baylor College of MedicineHouston, TX, USA; Texas Children's Microbiome Center, Texas Children's Children HospitalHouston, TX, USA.

PMID: 26778967
PMCID: PMC4705220
DOI: 10.3389/fncel.2015.00503

Abstract

The Human Microbiome Project defined microbial community interactions with the human host, and provided important molecular insight into how epigenetic factors can influence intestinal ecosystems. Given physiological context, changes in gut microbial community structure are increasingly found to associate with alterations in enteric neurotransmission and disease. At present, it is not known whether shifts in microbial community dynamics represent cause or consequence of disease pathogenesis. The discovery of bacterial-derived neurotransmitters suggests further studies are needed to establish their role in enteric neuropathy. This mini-review highlights recent advances in bacterial communications to the autonomic nervous system and discusses emerging epigenetic data showing that diet, probiotic and antibiotic use may regulate enteric neurotransmission through modulation of microbial communities. A particular emphasis is placed on bacterial metabolite regulation of enteric nervous system function in the intestine.

Keywords: enteric nervous system; epigenetics; intestinal disease; metabolome; microbiome; neuropathy; neurotransmitters; nitric oxide.

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Figures

**Figure 1**
**Microbial neurotransmitter crosstalk with the autonomic nervous system**. As outlined in the article, a system of checks and balances operate to regulate gut function. Abbreviations: 5-HT, serotonin; Ach, acetylcholine; CRF, corticotrophin releasing factor; EGF, epidermal growth factor; GDNF, glial cell line-derived neurotrophic factor; LPS, lipopolysaccharide; M3, M3 muscarinic receptor; SCFA, short chain fatty acids; sIgA, secretory IgA; SNO, s-nitrosothiol; TGF, transforming growth factor; VIP, vasoactive intestinal peptide; VPAC1, VIP and PACAP receptor 1.

**Figure 2**
**Microbial gaseous neurotransmitters**. Schematic outline of microbial derived nitric oxide (NO), S-nitrosothiol derivatives (SNO), and hydrogen sulfide (H₂S) signals and their cross-interactions with carbon monoxide (CO) neurotransmitters in the enteric nervous system.

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Epigenetic Regulation of Enteric Neurotransmission by Gut Bacteria

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Epigenetic Regulation of Enteric Neurotransmission by Gut Bacteria

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