54Mn Absorption and Excretion in Rats Fed Soy Protein and Casein Diets

Abstract

Rats were fed diets containing either soy protein or casein and different levels of manganese, methionine, phytic acid, or arginine for 7 days and then fed test meals labeled with 2 .mu.Ci of 54Mn after an overnight fast. Retention of 54Mn in each rat was measured every other day for 21 days using a whole-body counter. Liver manganese was higher (P<0.0001) in soy protein-fed rats (8.8 .mu.g/g) than in casein-fed rats (5.2 .mu.g/g); manganese superoxide dismutase activity also was higher in soy protein-fed rats than in casein-fed rats (P<0.01). There was a significant interaction between manganese and protein which affected manganese absorption and biologic half-life of 54Mn. In a second experiment, rats fed soy protein-test meals retained more 54Mn (P<0.001) than casein-fed rats. Liver manganese (8.3 .mu.g/g) in the soy protein group was also higher than that (5.7 .mu.g/g) in the casein group (P<0.0001), but manganese superoxide dismutase activity was unaffected by protein. Supplementation with methionine increased 54Mn retention from both soy and casein diets (P<0.06); activity of manganese superoxide dismutase increased (P<0.05) but liver manganese did not change. The addition of arginine to casein diets had little effect on manganese bioavailability. Phytic acid affected neither manganese absorption nor biologic half-life in two experiments, but it depressed liver manganese in one experiment. These results suggest that neither arginine nor phytic acid was the component in soy protein which made manganese more available from soy protein diets than casein diets.