The Tryptophan/Kynurenine Pathway: A Novel Cross-Talk between Nutritional Obesity, Bariatric Surgery and Taste of Fat

Diet-induced obesity (DIO) reduces the orosensory perception of lipids in rodents and in some humans. Although bariatric surgery partially corrects this alteration, underlying mechanisms remain poorly understood. To explore whether metabolic changes might explain this fat taste disturbance, plasma m...

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Veröffentlicht in:	Nutrients 2021-04, Vol.13 (4), p.1366
Hauptverfasser:	Bernard, Arnaud, Le May, Cédric, Dastugue, Aurélie, Ayer, Audrey, Blanchard, Claire, Martin, Jean-Charles, Pais de Barros, Jean-Paul, Delaby, Pascaline, Le Bourgot, Cindy, Ledoux, Séverine, Besnard, Philippe
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Sprache:	eng
Schlagworte:	Behavior Biodegradation Crosstalk Diet Food Food and Nutrition Gastrointestinal surgery Glucose Laboratory animals Life Sciences Lipids Metabolites Neurotoxicity Obesity Ostomy Papillae Perception Plasma Stomach Surgery Sutures Taste Taste perception Taste thresholds Tryptophan Weight control
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creator	Bernard, Arnaud Le May, Cédric Dastugue, Aurélie Ayer, Audrey Blanchard, Claire Martin, Jean-Charles Pais de Barros, Jean-Paul Delaby, Pascaline Le Bourgot, Cindy Ledoux, Séverine Besnard, Philippe
description	Diet-induced obesity (DIO) reduces the orosensory perception of lipids in rodents and in some humans. Although bariatric surgery partially corrects this alteration, underlying mechanisms remain poorly understood. To explore whether metabolic changes might explain this fat taste disturbance, plasma metabolome analyses, two-bottle choice tests and fungiform papillae (Fun) counting were performed in vertical sleeve gastrectomized (VSG) mice and sham-operated controls. An exploratory clinic study was also carried out in adult patients undergone a VSG. In mice, we found that (i) the VSG reduces both the plasma neurotoxic signature due to the tryptophan/kynurenine (Trp/Kyn) pathway overactivation and the failure of fat preference found in sham-operated DIO mice, (ii) the activity of Trp/Kyn pathway is negatively correlated to the density of Fun, and (iii) the pharmacological inhibition of the Kyn synthesis mimics in non-operated DIO mice the positive effects of VSG (i.e., decrease of Kyn synthesis, increase of Fun number, improvement of the fat taste perception). In humans, a reduction of the plasma Kyn level is only found in patients displaying a post-surgery improvement of their fat taste sensitivity. Altogether these data provide a plausible metabolic explanation to the degradation of the orosensory lipid perception observed in obesity.
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subjects	Behavior Biodegradation Crosstalk Diet Food Food and Nutrition Gastrointestinal surgery Glucose Laboratory animals Life Sciences Lipids Metabolites Neurotoxicity Obesity Ostomy Papillae Perception Plasma Stomach Surgery Sutures Taste Taste perception Taste thresholds Tryptophan Weight control
title	The Tryptophan/Kynurenine Pathway: A Novel Cross-Talk between Nutritional Obesity, Bariatric Surgery and Taste of Fat
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