Antioxidant effect of amaranth flour or protein isolate incorporated in high‐fat diets fed to Wistar rats. Influence of dose and administration duration

GARCÍA FILLERÍA, SUSAN F; RODRIGUEZ, MARIELA; TIRONI, VALERIA A.

JOURNAL OF FOOD BIOCHEMISTRY

WILEY-BLACKWELL PUBLISHING, INC

Lugar: Londres; Año: 2020 vol. 00:e

0145-8884

AbstractThis study evaluated the effect on Wistar rat´s oxidative status of incorporating amaranth flour (AF) and protein isolate (AI) in increased‐fat diets. Five of the groups were fed for 4 weeks with either BD (basal diet), Chol+F (2% cholesterol, 10% porcine fat), Chol+F+E (0.005% α‐tocopherol), Chol+F+AF1 or Chol+F+AI1 (25% of protein replacement) diets. The other two groups were fed for 4 weeks with Chol+F and then 1 week with Chol+F+AF2 or Chol+F+AI2 diet (50% of protein replacement). Various effects on the oxidative stress biomarkers in tissues (intestine and liver) were observed. These effects were dependent on the ingredients, dose, and administration time. In the intestinal cells, Chol+F+AF1 and Chol+F+AI2 produced an increment in the reduced glutathione (GSH) content (56% and 39%, respectively), while Chol+F+AF2 induced an increment in the superoxide dismutase (SOD) (25%) and glutathione peroxidase (GPx) (46%) activities. The presence of certain components in flour (e.g., fiber, polyphenols, squalene) could explain the higher activity recorded for AF. In the liver, Chol+F+AF2 produced a decrease in SOD (19%) and GSH (36%), as well as an increase in GPx (255%); Chol+F+AI1 and Chol+F+AI2 also produced a decrease in GSH (36% and 24%, respectively) and important increments in GPx activity (273% for Chol+F+AI1 and 2,900% for Chol+F+AI2). These effects were dependent on the AI dose and were probably produced by absorbed peptides.Practical applicationsIt is known that redox imbalances are involved in the genesis of many chronic diseases. Therefore, it is possible to prevent them or limit their severity by improving the body´s antioxidant defense mechanisms through dietary incorporation of antioxidant substances. The results suggest that amaranth protein isolate and amaranth flour have the potential for regulating intestinal and liver cells redox balance; effects were more evident when they contributed 50% of the diet´s protein content and were administered for 1 week. Both amaranth ingredients could be used as ingredients in the development of functional foods with beneficial antioxidant properties.