Effects of dietary fats and proteins on rat testicular steroidogenic enzymes and serum testosterone levels.

It is known that certain dietary fats can modulate rat testosterone metabolism. In the current study we have investigated testicular steroidogenic enzyme activities and serum testosterone levels in rats fed diets containing either different protein sources (casein, fishmeal, whey) or different lipid sources (soybean oil, docosahexaenoic acid (DHA), seal oil, fish oil, lard). The diets examined reflect different marine oils and proteins which are significant components of Northern Canadian diets. Male rats (42-45 days old, 6 per group), were assigned to specific diets for 42 days. On the 43rd day of the study, rats were sacrificed and blood plasma and testes frozen (-80 degrees C) until analysis. Microsomal steroidogenic enzyme activities (3beta-HSD, 17-OHase, C-17,20-lyase, 17beta-HSD) were measured radiometrically. There were no differences in enzyme activities between the three dietary protein sources. In contrast, compared with the standard casein diet, all lipid sources caused reductions in C-17,20-lyase activity (>50%); seal oil and fish oil reduced 17-OHase activity (approximately 30%) and soybean oil, DHA fish oil and lard reduced 17beta-HSD activity (approximately 30%). No effect on 3beta-HSD activity was evident. Serum testosterone levels were determined using ELISA kits and were not affected by any diet with the exception of the soybean oil diet which was significantly elevated compared with the casein protein diet. Body and testis weights were not affected by diet. In conclusion, these data demonstrate that some dietary lipid sources caused reductions in testicular 17-OHase and C-17,20-lyase activities but not to the extent that serum T levels were affected, while soybean oil caused elevated serum testosterone in the absence of elevated steroidogenic enzyme activities.