In recent years, extensive research has provided evidence to suggest that bioactive peptides derived from food may exert beneficial effects on human health( Reference FitzGerald and Meisel 1 ). Bioactive peptides have been identified within the amino acid sequences of bovine milk, which are released upon enzymatic hydrolysis using digestive enzymes( Reference FitzGerald and Meisel 1 ). Moreover, milk derived bioactive peptides have previously been reported to generate beneficial effects on human cardiovascular, immune and nutrition systems( Reference Fox and McSweeney 2 ). The objective of this study is to determine if milk derived hydrolysates have an effect on insulin secretion and glycemic function by firstly examining the possible insulinotropic properties on pancreatic β-cells in vitro and in vivo using an ob/ob mouse model. To investigate the insulinotropic effects of milk hydrolysates in vitro, BRIN-BD11 cells were treated with basal levels of glucose (1.1 mM) for 40 minutes prior to stimulating with 16.7 mM glucose and Hydrolysate A (1 mg/ml) for 20 minutes. A two-tiered model with human intestinal Caco-2 cells and pancreatic BRIN-BD11 cells were used in bioavailability studies. Hydrolysate A at a concentration of 1 mg/1 ml stimulated insulin secretion (5.5 ng insulin/mg protein) from BRIN-BD11 cells; the induction of insulin release was significantly different when compared to the control of unhydrolysed protein (0.265 ng insulin/mg protein), (P<0.005). Further analysis revealed that Hydrolysate A stimulated insulin release in a dose dependent manner (1.5 ng–10 ng insulin/mg protein at concentrations of 0.01–5 mg/ml). The bioavailability experiments demonstrated significant transport of the bioactive sample through the Caco-2 layer. After 4 hours, Hydrolysate A at 50 mg/ml+100 mM glucose induced 4.6 ng insulin/mg protein from BRIN-BD11 cells as compared to 1.5 ng insulin/mg protein induced by the control of 100 mM glucose (P<0.005). The in-vivo effect of this hydrolysate is currently being assessed in an ob/ob model of diabetes. In conclusion, Hydrolysate A is a potent inducer of insulin secretion, which is bioavailable in a two-tiered co-culture model. Future work will be directed towards encompassing this bioactive into a functional food used to aid glycemic management.
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