Caleb A. Awoniyi scite author profile

The studies described herein were designed to examine whether there is a threshold concentration of testosterone (T) within the seminiferous tubules that is required to maintain spermatogenesis in the rat, or alternatively, whether there is a dose-response relationship between the intratesticular T concentration and the maintenance of spermatogenesis. T was administered to intact adult male rats via sustained release polydimethylsiloxane capsules in order to experimentally clamp T at well defined concentrations within the seminiferous tubules. Implantation of T-filled capsules of increasing sizes resulted in linear increases in T concentrations in serum, interstitial fluid, and seminiferous tubule fluid (STF). We examined the effect of step decreases in intratesticular T concentration on the numbers of advanced spermatogenic cells maintained by the testis over a 2-month period. Quantitatively complete spermatogenesis was maintained despite an 80% reduction in the STF T concentration (to approximately 13 ng/ml) from control values. The ability of the testis to maintain complete spermatogenesis was extremely sensitive to further decreases in STF T concentration. Thus, reduction of the STF T concentration from approximately 13 to 9 ng/ml resulted in a reduction in the number of advanced spermatids that were maintained in the testis by approximately 100 x 10(6). Reduction of the STF T concentration to approximately 4 ng/ml resulted in a further reduction in the number of advanced spermatids per testis by 100 x 10(6). Taken together, these data support the contention that there is far more T present within the seminiferous tubules of intact rat testes than is required to maintain quantitatively normal spermatogenesis and reveal for the first time that there is a dose-response relationship between the STF T concentration and the quantitative maintenance of advanced spermatogenic cells in the rat testis.

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Effects of Chronic Dietary Exposure to Genistein, a Phytoestrogen, During Various Stages of Development on Reproductive Hormones and Spermatogenesis in Rats

Roberts

Veeramachaneni

Schlaff

et al. 2000

ENDO

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Developmental, hormonal, and gametogenic parameters were evaluated in male progeny following chronic dietary exposure to the phytoestrogen genistein. Twenty pregnant rats were fed a diet containing genistein (50 microg/d) from d 17 of gestation, and 12 were fed a control diet without genistein. Four litters each of control and genistein-fed rats were euthanized on d 21. The remaining pups were weaned on d 21 and only male rats were used in this study. On d 21, eight litters of genistein-fed rats were placed on control diet (gestational and lactational exposure alone [GL-G]), and the remaining eight continued on genistein diet (lifelong exposure group [LL-G]). These rats were euthanized (four litters/group) on d 70 or 130 of life. Serum testosterone, which was slightly reduced in genistein-exposed rats on d 21, did not differ among treatment and control groups on d 70 and 130. Serum luteinizing hormone of genistein-exposed rats was reduced on d 21 and 130, but not on d 70. Serum follicle-stimulating hormone did not vary among groups at any age. Treatment-related effects of dietary genistein were not observed on the weights of the testes of 21-d-old rats. Except for a slight decrease in testis weight of GL-G rats at 130 d, no significant effect of dietary exposure was observed on the weight of the testes in any other group. However, epididymal weights were significantly reduced in both treated groups at d 130. Testicular sperm count (on d 70 as well as 130) also was not affected in GL-G or LL-G rats. We conclude that gestational plus lactational exposure to genistein and subsequent dietary exposure to genistein have no adverse effects on gametogenic function in male rats.

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Reproductive sequelae in female rats after in utero and neonatal exposure to the phytoestrogen genistein

Awoniyi

Roberts

Veeramachaneni

et al. 1998

Fertility and Sterility

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Quantitative Restoration of Advanced Spermatogenic Cells in Adult Male Rats Made Azoospermic by Active Immunization against Luteinizing Hormone or Gonadotropin-Releasing Hormone*

et al. 1989

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The ability of testosterone to quantitatively restore spermatogenesis in rats made azoospermic by active immunization against LH or GnRH was examined. Sexually mature adult male rats (n = 15/group) were actively immunized against ovine LH or GnRH-human serum globulin conjugate, while control rats (n = 10) were injected with saline. After 10 weeks of immunization, five rats per group were euthanized. For each rat, trunk blood was collected for determination of LH, FSH, and testosterone by RIA; seminiferous tubule fluid (STF) was collected from one testis per rat, and testosterone concentration was measured by RIA; the number of advanced spermatids per testis was determined from the contralateral testis. The results obtained after 10 weeks of treatment were as follows. 1) Serum LH and FSH were undetectable by RIA in GnRH-immunized rats. 2) Serum testosterone was undetectable in both the LH- and GnRH-immunized groups. 3) The testosterone concentration in STF (STF-T) was reduced from the control value of about 64 ng/ml to about 2 ng/ml in the LH- and GnRH-immunized rats. 4) LH- and GnRH-immunized rats were azoospermic. After the initial 10-week treatment period, five rats in each of the LH- and GnRH-immunized groups received 24-cm testosterone-filled polydimethylsiloxane (PDS-T) capsules (3 x 8 cm long) sc. The remaining immunized rats (n = 5/group) received empty capsules. Two months later, all rats were euthanized. Testis weights, serum testosterone, and STF-T concentrations remained significantly reduced in LH- and GnRH-immunized rats that did not receive testosterone supplementation, and the rats remained azoospermic. STF-T concentrations rose significantly (P less than 0.05) in the LH- and GnRH-immunized rats that received PDS-T, but were still significantly less (by approximately 80%) than the concentration in intact controls. Nonetheless, implantation of PDS-T caused restoration of advanced spermatogenic cells in the testes of both LH- and GnRH-immunized rats to numbers that were not significantly different from the number in controls. These data indicate that 1) testosterone is capable of quantitatively restoring spermatogenesis in rats actively immunized against LH or GnRH, suggesting that FSH may not be required for the restoration of spermatogenesis in adult rats; and 2) quantitatively complete restoration of spermatogenesis can occur at STF-T concentrations that are significantly reduced compared to those in intact controls.

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Caleb A. Awoniyi

Maintenance of Advanced Spermatogenic Cells in the Adult Rat Testis: Quantitative Relationship to Testosterone Concentration within the Testis*

Effects of Chronic Dietary Exposure to Genistein, a Phytoestrogen, During Various Stages of Development on Reproductive Hormones and Spermatogenesis in Rats

Reproductive sequelae in female rats after in utero and neonatal exposure to the phytoestrogen genistein

Quantitative Restoration of Advanced Spermatogenic Cells in Adult Male Rats Made Azoospermic by Active Immunization against Luteinizing Hormone or Gonadotropin-Releasing Hormone*

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