Profound Changes in Net Energy and Nitrogen Metabolites Fluxes within the Splanchnic Area during Overfeeding of Yucatan Mini Pigs That Remain Euglycemic

• Published in: Nutrients Vol. 11; no. 2; p. 434
• Main Authors: Isabelle, Savary-Auzeloux, Ahmed-Ben, Mohamed, Benoit, Cohade, Dominique, Dardevet, Jérémie, David, Noureddine, Hafnaoui, Carole, Migné, Estelle, Pujos-Guillot, Didier, Rémond, Sergio, Polakof
• Format: Journal Article
• Language: English
• Published: Switzerland MDPI AG 19.02.2019; MDPI
• Subjects: amino acid; Food and Nutrition; glucose; gut; Insulin resistance; lactate; Life Sciences; liver; Metabolites; minipig; nutrient flux; Nutrition; Obesity; short chain fatty acid; glucose; minipig; amino acid; liver; gut; lactate; obesity; nutrient flux; short chain fatty acid
• ISSN: 2072-6643; 2072-6643
• DOI: 10.3390/nu11020434

A dysregulation of nutrient exchange between tissues (gut, liver, muscles, adipose) occurs during overnutrition and could induce obesity and metabolic diseases. We aimed to evaluate how, in overfed mini pigs, nutrients use and partition were regulated in the gut and liver. Net nutrients fluxes were assessed in the fed (PP) and post absorptive (PA) states at 1, 14 and 60 days of adaptation to overfeeding in five adult Yucatan female multicatheterized minipigs. Pigs PA glycaemia and PP-induced hyperglycemia remained unchanged over the experimental period, suggesting that the management of the excess of energy intake allowed the maintenance of glucose levels. This was associated with (1) an increased PA plasma insulin, (2) an increased gut lactate production (increased lactate net release +89%, 1 h PP, D1 vs. D60) probably from an increased glucose oxidation, (3) a shift in utilization of gluconeogenic precursor (lactate, propionate) in the liver, and (4) a reduced gut utilization of nitrogen moieties for energy purposes (glutamine), a nitrogen sparing effect at the whole body level (decreased plasma urea in PA (-24% D1 vs. D60) and PP states) and a specific increased level of AA involved in lipids handling and bile recycling in the gut lumen (taurine and glycine).