Mitochondrial aspartate aminotransferase and the effect of testosterone on citrate production in rat ventral prostate.

Mitochondrial aspartate transamination was investigated as a major source of oxalacetate for citrate synthesis in rat ventral prostate. Citrate accumulation was measured in isolated mitochondria incubated with acetyl coenzyme A and various combinations of amino acids. Aspartate plus alpha ketoglutarate in the presence of acetyl coenzyme A resulted in significant citrate accumulation. Neither aspartate nor alpha ketoglutarate alone resulted in any significant citrate accumulation. Aspartate and alpha ketoglutarate use was comparable to glutamate and citrate production. The results indicated the presence of a mitochondrial aspartate aminotransferase. Castration (3 days) caused a significant decrease in citrate production from aspartate plus alpha ketoglutarate as well as a decrease in mitochondrial AAT activity in prostate although no effect on kidney activity occurred. A single injection of 1 mg. testosterone propionate to castrate rats significantly increased prostate mitochondrial AAT activity within 24 hours while MDH activity was unaltered. A double reciprocal plot indicated that testosterone might regulate the level of mitochondrial AAT in prostate. Ventral prostate also contain a uniquely high level of endogenous aspartate. These studies indicate that aspartate might be the major 4-carbon source of oxalacetate for citrate synthesis. Also testosterone possibly regulated prostate citrate production by its effect on the level of mitochondrial AAT activity.