Enhancement of mammary tumorigenesis by dietary selenium deficiency in rats with a high polyunsaturated fat intake.

The effect of selenium depletion on mammary tumorigenesis following dimethylbenz[a]anthracene administration was examined in female Sprague-Dawley rats that were fed different levels and types of fats. Four basal diets deficient in selenium were used: (a) 1% corn oil; (b) 5% corn oil; (c) 25% corn oil; and (d) a high saturated fat diet containing 1% corn oil and 24% hydrogenated coconut oil. The comparable selenium-adequate diets were obtained by adding 0.1 ppm of selenium to each of the basal diets. In animals that received an adequate supplement of selenium, an increase in fat intake was accompanied by an increased tumor incidence when corn oil was used in the diets. A high saturated fat ration, on the other hand, was much less effective in this respect. Only in those rats that were maintained on a high polyunsaturated fat diet (25% corn oil) did selenium depletion result in a further increase in tumor incidence and tumor yield. Such an augmentation was not observed in animals given either a 1 or a 5% corn oil ration or a diet rich in saturated fat. Regardless of selenium status, almost all of the tumors found were adenocarcinomas. An enhancement of tumorigenesis as a result of selenium deficiency in rats fed the 1% corn oil regimen was detected provided a high dose of dimethylbenz[a]anthracene was used, suggesting that alterations in dimethylbenz[a]anthracene metabolism might be involved under this condition. The antioxidant property of selenium is discussed as a possible mechanism by which selenium protects against tumorigenesis, especially in animals with a high polyunsaturated fat intake.