Protein-enriched diets improve glycemic control in diabetes or emotional behavior in depressive patients. In mice, these benefits depend on intestinal gluconeogenesis activation by di-/tripeptides. Intestinal di-/tripeptides absorption is carried out by the peptide transporter 1, PEPT1. The lack of PEPT1 might thus alter glucose and emotional balance. To determine the effects of PEPT1 deficiency under standard dietary conditions or during a dietary challenge known to promote both metabolic and cognitive dysfunction, insulin sensitivity, anxiety, and depressive-like traits, hippocampal serotonin (5-HT) and insulin signaling pathway were measured in wild-type (WT) and Pept1-/- mice fed either a chow or a high-fat high-sucrose (HF-HS) diet. Pept1-/- mice exhibited slight defects in insulin sensitivity and emotional behavior, which were aggravated by an HF-HS diet. Pept1-/- mice fed a chow diet had lower hippocampal 5-HT levels and exhibited cerebral insulin resistance under HF-HS diet. These defects were independent of intestinal gluconeogenesis but might be linked to increased plasma amino acids levels. Pept1-/- mice develop prediabetic and depressive-like traits and could thus be used to develop strategies to prevent or cure both diseases.
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