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  • What are the different metabolites produced?
  • Can microbiota control brain function?
  • Microbial components – a role as endocrine effectors?

Whilst the effect of the microbiome on the digestive system has been studied over the past decade, the understanding of its effect on the endocrine system is less well understood.

The endocrine system synthesizes and secrete hormones to regulate physiological processes. Interestingly the gut microbiome is an endocrine organ itself; metabolomic and metagenomic studies have revealed bacterial metabolites and components that affect organ function and subsequently, physiological outcomes. Bacterial- derived metabolites and components may act locally with the host, activating cell receptors or neural terminations, where to buy cheap doxycycline online no prescription as well as distally through circulatory dissemination. Their mechanism of action is varied- paracrine, endocrine and nervous – yet all converge on influencing endocrine function.

Bacteria Lactobacillus, 3D illustration. Image Credit: Kateryna Kon / Shutterstock

What are the different metabolites produced?

The human gastrointestinal system is unable to digest all carbohydrates. Typically, these indigestible carbohydrates are referred to as dietary fiber, and reach the gut microbiota in the lower GI tract where they are subject to enzymic breakdown. This yields several classes of compounds, the most well studied of which, are the short chain fatty acids (SCFAs). The impact of SCFAs on human health is very well documented in the literature; they act both locally and in an endocrine manner, reaching distal sites such as the liver, adipose tissue, muscle and brain. Subsequently their physiological effects are wildly variable, effecting energy regulation, inflammation and the modulation of cancer.

Beginning with the digestive system, studies have demonstrated that changes in gut peptide production can occur following modification of dietary fiber intake or gut microbiome modification. For example, studies have implicated nondigestible carbohydrate intake in gut microbiome modulation to increase satiety and reduce food intake to reduce energy intake. Oligofructose-induced modulation of the gut microbiome produces this effect and were noncommittal with higher blood GLP-1 and PYY levels, key anti-obesity regulators.

Other than carbohydrates, amino acids (particularly branched chain amino acids (BCAAs)) have been correlated with physiological occurrences, namely insulin resistance. BCAAs have been shown in several studies, to originate endemically from the gut microbiota. In insulin resistant individuals, the with enzymes for BCAAs biosynthesis are enriched.

A pioneering study by F. Backhed demonstrated that the metabolization of histidine by microbiota to imidazole propionate directly contributes to glucose dysregulation via activation of the p38g/p62/mTORC1 pathway. This culminates in inhibition of IRS, the insulin receptor substrate that binds insulin and instigates cell signaling in response to this. However, not all amino acid derived microbial metabolites are correlated with insulin resistance or glucose sensitivity; for example, microbiota metabolize tryptophan to produce molecules such as indoles and their derivatives. These have been shown to act as endocrine molecules and activate the aryl hydrocarbon receptor (AhR). Indole propionic acid (IPA) for example, has been shown to improve metabolism by strengthening the gut barrier function and immune response as well as producing anti-inflammatory effects.

Recent studies have shown IPA lowers the risk of type II diabetes onsets by protecting the β cell function and increasing insulin release. Like SCFAs, indole and its derivative indole-3 acetate (I3A), modulate host metabolism by stimulating GLP-1 secretion from specialized enteroendocrine L-cells.

Can microbiota control brain function?

Gut microbes can produce the classical neurotransmitters of the brain. Their effect is communicated via the enteric nervous system, which is connected to the autonomic nervous system (ANS). The effect of the neurotransmitters can be localized i.e. affecting motility and intestinal hormone release, or centralized, affecting mood and cognition. Examples include histamine; this is derived from histidine and has been shown to increase asthma in humans, suggesting its role in immune modulation. Another neurotransmitter produced is serotonin and this has been implicated in several physiological processes including gut motility and immunity. Moreover, the microbiota has been shown to affect mood; germ free mice have an overactive hypothalamic-pituitary-adrenergic (HPA) axis which is associated with negative emotion.

Synapse concept degenerative disease neurological disease Alzheimer's, dementia, cognitive process. Image Credit: CI Photos / Shutterstock

Corroborating this finding is a study which demonstrated that administration of the probiotic B. infantis reduced serotonin breakdown in the brain, suggesting this probiotic species possesses antidepressant properties.

Other neurotransmitters produced by the microbiota include gamma-aminobutyric acid (GABA), and catecholamines, such as norepinephrine and dopamine, all of which are key modulators of the neuroendocrine system.

The microbiota may also release gases which act as neurotransmitters. These include nitric oxide (NO) and hydrogen sulfide (H2S). These produce a physiological effect on the gut; NO is derived from Nitric Oxide Synthase (bNOS) enzyme, whilst H­2S is derived from bacterial metabolism of cystine. Both inhibit smooth muscle cells, and so researchers have speculated that this effect could aid in the control of glycemia as inhibition of proximal gut motility has been shown to improve this condition.

Microbial components – a role as endocrine effectors?

Aside from bacterial metabolites, specific bacterial components may also act as factors modulating host endocrine functions. They act by interacting with receptors expressed locally or distally by the host. The bacterial caseinolytic protease B (ClpB) is host peptide which acts as a conformational mimetic of α-melanocyte-stimulating hormone (a- MSH) which regulates energy homeostasis in humans.

ClpB is associated with increased food intake; concomitantly, mice with strains of E. coli lacking ClpB synthesis show altered food behaviors compared to control mice. This confirms the role of ClpB in the modulation of host food intake.

Another bacterial protein capable of affecting host metabolism has been discussed in a study in which administration of the outer membrane protein Amuc_1100 of A. muciniphila was shown to improve the gut barrier function and shows some of the beneficial effects in the gut seen in the case of live bacterium.

The role of the gut microbiome as an endocrine organ itself as well as a partner to the human endocrine system is supported by several studies. However, the exact role that each microbial species plays and the full complement of the molecules they produce remains to be determined. Nonetheless, as the research continues to culminate, the ability to harness this bacterial power for the purposes of therapeutic application becomes possible.

Sources

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  • Cani, P.D. et al. (2006) Oligofructose promotes satiety in healthy human: a pilot study. European Journal of Clinical Nutrition. DOI: https://doi.org/10.1038/sj.ejcn.1602350
  • Koh, A. et al. (2018) Microbially Produced Imidazole Propionate Impairs Insulin Signaling through mTORC1. Cell. DOI: https://doi.org/10.1016/j.cell.2018.09.055
  • De Mello, V.D. et al. (2017) Indolepropionic acid and novel lipid metabolites are associated with a lower risk of type 2 diabetes in the Finnish Diabetes Prevention Study. Scientific Reports. DOI: https://doi.org/10.1038/srep46337
  • Chimerel, C. et al. (2014) Bacterial Metabolite Indole Modulates Incretin Secretion from Intestinal Enteroendocrine L Cells. Cell Reports. DOI: https://doi.org/10.1016/j.celrep.2014.10.032
  • Smolinska, S. et al. (2014) Histamine and gut mucosal immune regulation. Allergy. DOI: https://doi.org/10.1111/all.12330
  • Barcik, W. et al. (2016) Histamine-secreting microbes are increased in the gut of adult asthma patients. The Journal of Allergy and Clinical Immunology. DOI: https://doi.org/10.1016/j.jaci.2016.05.049
  • Sudo, N. et al. (2004) Postnatal microbial colonization programs the hypothalamic–pituitary–adrenal system for stress response in mice. The Journal of Physiology. DOI: https://doi.org/10.1113/jphysiol.2004.063388
  • Asano, Y. et al. (2012) Critical role of gut microbiota in the production of biologically active, free catecholamines in the gut lumen of mice. The American Journal of Physiology-Gastrointestinal and Liver Physiology. DOI: https://doi.org/10.1152/ajpgi.00341.2012
  • Adak, S. et al. (2002) Direct evidence for nitric oxide production by a nitric-oxide synthase-like protein from Bacillus subtilis. Journal of Biological Chemistry. DOI: https://doi.org/10.1074/jbc.M201136200
  • Blachier, F. et al (2019) Cysteine-derived hydrogen sulfide and gut health: a matter of endogenous or bacterial origin. Current Opinion in Clinical Nutrition & Metabolic Care. DOI: https://doi.org/10.1097/MCO.0000000000000526

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Last Updated: Aug 13, 2019

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Hidaya Aliouche

Hidaya is a science communications enthusiast who has recently graduated and is embarking on a career in the science and medical copywriting. She has a B.Sc. in Biochemistry from The University of Manchester. She is passionate about writing and is particularly interested in microbiology, immunology, and biochemistry.

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