Steroid sulfatase activity in homogenates, microsomes and purified Leydig cells from adult rat testis.

Steroid sulfatase (STS) activity was studied in the Long-Evans rat testis. The rate of dehydroepiandrosterone sulfate (DHA-S) hydrolysis determined in whole testis homogenates was low compared to that of the corresponding microsomal fractions, which was, in contrast, as high as that expressed in homogenates from purified Leydig cells. Such an increment in STS activity between total homogenates and the corresponding microsomes was not observed for the seminiferous tubules. The STS affinity reported for total testicular microsomes (Km = 3.47 +/- 0.54 microM; mean +/- SEM) was of the same magnitude as that previously reported for Leydig cells, but was about 3 times higher than that measured for whole testis homogenate (Km = 10.11 +/- 0.92 microM). In vivo hCG treatment decreased the STS affinity in total testicular microsomes without affecting this kinetic parameter in whole testis homogenate. These data suggest that the steroid sulfatase expressed in total testicular microsomes (activity and regulation by hCG) could be considered as a good index of Leydig cell STS activity.

Testicular steroid sulfatase in a cryptorchid rat strain.

Steroid sulfatase (STS) activity was studied in scrotal and abdominal testes from genetically unilateral cryptorchid rats. Specific STS activity was significantly increased in microsomes from abdominal and scrotal testes of the cryptorchid animals as compared to that of control ones. When expressed per gonad, STS activity was only enhanced in the scrotal testis. No difference in the enzyme affinity was observed between descended and undescended testes. Testosterone content was markedly reduced in the abdominal testes. Normal plasma testosterone levels together with elevated LH levels were measured in the cryptorchid rats. The existence of differences in STS expression between descended and undescended testes gives additional support for this enzymatic activity being implicated in testicular function.

Ontogenesis and regulation of steroid sulfatase activity in Leydig cells and seminiferous tubules in the Long-Evans rat.

Steroid sulfatase (STS) activity was studied in Long-Evans rat testis. The affinity of the enzyme was shown to increase during postnatal development and to be always higher in purified Leydig cells than in seminiferous tubules. STS activity appeared to be higher in the seminiferous tubules at the earlier stages. In vivo injection of 100 IU hCG resulted in a decrease in the affinity and an increase in the activity of the enzyme expressed in Leydig cells with no such modification in seminiferous tubules. This suggests that STS could play a regulatory role in testosterone production by Leydig cells.