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Free Radic Biol Med. 2016 Apr;93:155-64. doi: 10.1016/j.freeradbiomed.2016.01.028. Epub 2016 Feb 2.

Detrimental effects for colonocytes of an increased exposure to luminal hydrogen sulfide: The adaptive response.

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UMR PNCA, AgroParisTech, INRA, Université Paris-Saclay, Paris, France.
INRA, UMR 1331, Toxalim, Research Centre in Food Toxicology, Toulouse, France.
Laboratory of Applied Nutrition and Metabolism, University of Sao Paulo, Brazil.
UMR PNCA, AgroParisTech, INRA, Université Paris-Saclay, Paris, France; Department of Gastroenterology, Hôpital Avicenne, Assistance Publique-Hôpitaux de Paris, Bobigny, France.
INSERM U1016, Institut Cochin, Paris, France; CNRS UMR8104, Institut Cochin, Paris, France; Université Paris Descartes UMRS1016, Institut Cochin, Paris, France.
UMR PNCA, AgroParisTech, INRA, Université Paris-Saclay, Paris, France. Electronic address:


Protein fermentation by the gut microbiota releases in the large intestine lumen various amino-acid derived metabolites. Among them, hydrogen sulfide (H2S) in excess has been suspected to be detrimental for colonic epithelium energy metabolism and DNA integrity. The first objective of this study was to evaluate in rats the epithelial response to an increased exposure to H2S. Experiments from colonocyte incubation and intra-colonic instillation indicate that low millimolar concentrations of the sulfide donor NaHS reversibly inhibited colonocyte mitochondrial oxygen consumption and increased gene expression of hypoxia inducible factor 1α (Hif-1α) together with inflammation-related genes namely inducible nitric oxide synthase (iNos) and interleukin-6 (Il-6). Additionally, rat colonocyte H2S detoxification capacity was severely impaired in the presence of nitric oxide. Based on the γH2AX ICW technique, NaHS did not induce DNA damage in colonocytes. Since H2S is notably produced by the gut microbiota from sulfur containing amino acids, the second objective of the study was to investigate the effects of a high protein diet (HPD) on large intestine luminal sulfide content and on the expression of genes involved in H2S detoxification in colonocytes. We found that HPD markedly increased H2S content in the large intestine but the concomitant increase of the content mass maintained the luminal sulfide concentration. HPD also provoked an increase of sulfide quinone reductase (Sqr) gene expression in colonocytes, indicating an adaptive response to increased H2S bacterial production. In conclusion, low millimolar NaHS concentration severely affects colonocyte respiration in association with increased expression of genes associated with intestinal inflammation. Although HPD increases the sulfide content of the large intestine, the colonic adaptive responses to this modification limit the epithelial exposure to this deleterious bacterial metabolite.


Colonocyte; Genotoxicity; High-protein diet; Hydrogen sulfide; Inflammation; Microbiota; Mitochondria; Nitric oxide

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