Role of the pituitary and the adrenals in mediating the effects of alcohol on testicular steroidogenesis in mice

We have previously demonstrated that intragastric administration of alcohol (1.24 g/kg body wt) to adult male mice results in suppression of testosterone production. We now report that the decline in peripheral testosterone levels in alcohol-treated mice is not accompanied by changes in plasma levels of luteinizing hormone, follicle stimulating hormone or estradiol-17 beta, and that it is markedly attenuated in adrenalectomized or adrenalectomized-corticosterone treated males.

Perinatal exposure to cannabinoids alters male reproductive function in mice

Oral administration of delta 9-tetrahydrocannabinol or cannabinol to female mice late in pregnancy and during early lactation alters body weight regulation and pituitary-gonadal function and suppresses adult copulatory activity in their male offspring. These findings suggest that both psychoactive and nonpsychoactive constituents of marihuana can affect the development of male reproductive functions in mice.

Prolactin, growth hormone, luteinizing hormone receptors, and seasonal changes in testicular activity in the golden hamster

In adult male hamsters, 2 months of exposure to a short photoperiod (5 h of light:19 h of darkness) caused testicular regression and a precipitous decline in plasma PRL, in agreement with earlier reports from other laboratories. Depressed release of PRL cannot be explained by a reduction in testicular steroidogenesis, because castration of males kept in a long photoperiod did not reduce PRL levels and administration of testosterone to males kept in a short photoperiod failed to reverse the decline in plasma PRL concentration. Treatment of such "regressed" animals with PRL, GH, or ectopic pituitary transplants stimulated growth of the testes and the accessory reproductive glands, increased the concentration of LH receptors in the testes, and elevated plasma testosterone levels. A single injection of 250 microgram PRL was sufficient to increase testicular LH binding, and chronic treatment with pituitary grafts completely reversed testicular regression. The effectiveness of exogenous PRL in stimulating testicular growth and LH receptors was significantly influenced by the timing of the injection. In some experiments, gonadotropin levels appeared elevated in animals injected with PRL, but these differences were not statistically significant. In hamsters with gonadal regression induced by exposure to a short photoperiod, daily administration of 20 microgram H and/or 150 microgram FSH had no apparent effect on testicular function. However, treatment with large doses of hCG and/or PMS gonadotropin resulted in significant stimulation of testicular growth and steroidogenesis. Chronic treatment of males maintained in a long photoperiod (14 h of light:10 h of darkness) with an inhibitor of PRL release, 2-Br-alpha-ergocryptine, resulted in a decreased weight of the testes and seminal vesicles. Administration of this inhibitor for a longer period (2 months) produced a significant increase in body weight but had little effect on testicular function. These results indicate that changes in the release of PRL (and possibly also GH) may plan an important role in mediating the effects of the photoperiod on testicular function in the golden hamster.

Effects of tamoxifen on plasma concentrations of testosterone and gonadotrophins in the male rat

Worcester Foundation for Experimental Biology, Shrewsbury, Massachusetts 01545, U.S.A.

(Received 2% March 1978)

Tamoxifen (trans 1-(p-β-dimethylaminoethoxyphenyl)-1,2-diphenylbut-1-ene; ICI 46,474) is both a potent antioestrogen and a weak oestrogen (Harper & Walpole, 1967) and is thought to act by inhibiting the binding of oestradiol to its cytoplasmic receptor (Jordan & Koerner, 1975). Chronic treatment with tamoxifen causes atrophy of the male accessory reproductive glands and the testicular germinal epithelium in the rat (Harper & Walpole, 1967) and the dog (M. Mason, unpublished data), as well as depression of the plasma concentration of testosterone in the latter species (M. Mason & A. Bartke, unpublished data). A direct inhibitory effect of tamoxifen on testicular steroidogenesis was suspected because treatment of female rats with tamoxifen increases, rather than decreases, the plasma concentration of luteinizing hormone (LH; Watson, Anderson, Alam, O'Grady & Heald, 1975). The possibility that an antioestrogen might act directly is of interest since

Serum estradiol, testosterone and dihydrotestosterone in male monkeys treated with testosterone propionate

Serum estradiol (E2), testosterone (T) and dihydrotestosterone (DHT) were measured in juvenile (pre-pubertal) male rhesus monkeys injected with either 8 mg or 80 mg of testosterone propionate (TP). After one week, the three steroids were elevated and remained essentially unchanged for the duration of the study. There was little difference in serum E2 or DHT when comparing the two groups of steroid-treated monkeys. In contrast, T levels were consistently greater in the animals given the high dosage of TP.

Concentration of gonadotrophins in the plasma and testicular responsiveness to gonadotrophic stimulation in androgen-deficient C57BL/10J mice

Worcester Foundation for Experimental Biology, Shrewsbury, Massachusetts 01545, U.S.A.

(Received 24 May 1977)

Deficient testicular function was suspected in male C57BL/10J mice from the observations that they have small testes (Shire & Bartke, 1972) and fail to produce the androgen-dependent pregnancy-blocking pheromone (Chapman & Whitten, 1969). Comparison with male DBA/2J mice and several other strains indicated that C57BL/10J mice have fewer spermatogonia, spermatocytes and spermatids, low testicular weight, a progressive decrease in the absolute weight of the testes after sexual maturation, excessive accumulation of esterified cholesterol in the testes and a low level of testosterone in the plasma (Bartke & Shire, 1972; Shire & Bartke, 1972; Bartke, 1974). The relative androgen deficiency of the C57BL/10J mice is also suggested by the observations of Ivanyi (1973), Hill, Clemens, Liu, Vessel & Johnson (1975) and Hoppe (1975).

To define the causes of androgen deficiency in C57BL/10J mice, the levels of gonadotrophins in

Suppression of testosterone production by ethyl alcohol. Possible mode of action

Intragastric administration of ethyl alcohol (1.24 g/kg body weight) to adult male mice caused a drastic decrease in the concentration of testosterone (T) in peripheral plasma. The depression of plasma T levels was significant at 30, 60 and 90 minutes after alcohol administration, but by 120 min, the normal T levels were re-established. This transient decrease in peripheral T levels was probably due to a reduction in testicular T production, because at 1 hr after alcohol administration, the concentration of T in the testis was also significantly depressed. The ability of the testes of alcohol-treated mice to produce T in response to gonadotropic stimulation in vitro was not affected. Addition of 5, 10, 20 or 50 microliter of alcohol per ml of the medium used for the incubation of decapsulated testes had no significant effect on the accumulation of T, but similar doses of acetaldehyde caused a pronounced inhibition of T production. The decrease in plasma T levels observed after administration of ethyl alcohol in vivo may be related to a direct inhibition of testicular T production by acetaldehyde derived from the metabolism of alcohol.

Effects of testosterone and dihydrotestosterone on spermatogenesis, rete testis fluid, and peripheral androgen levels in hypophysectomized rats

To compare the effects of testosterone (T) and dihydrotestosterone (DHT) on the maintenance and the restoration of spermatogenesis, hypophysectomized (APX) rats were treated daily for 35 days with 0.5 mg of T propionate (TP) or DHT propionate (DHTP) beginning 5 or 33 days after hypophysectomy. In the maintenance experiment, the weights of the testes and the number of early spermatids were significantly lower in DHTP-than in TP-treated animals, while late spermatids were present only in rats treated with TP. In the restoration experiment, TP increased testicular weight and the number of germinal cells, whereas DHTP had very little effect on the testis. In an attempt to explain these findings, we measured androgen levels in the rete testis fluid (RTF) and peripheral plasma of APX rats treated with TP or DHTP. The concentration of T in the RTF of TP-treated rats was nearly 3-fold higher than the level of DHT in the RTF of animals given DHTP. Plasma T levels measured 1/2, 2, 4, and 24 hours after the last of three daily injections of TP were considerably higher than were the corresponding plasma DHT levels in animals given DHTP. In animals treated with free steroids, peripheral androgen levels between 1/2 and 4 hours after the last injection were much higher in rats given T than in those given DHT, but thereafter this difference disappeared. We conclude that the difference in the ability of subcutaneously injected TP and DHTP to maintain and to restore spermatogenesis in APX rats was due to a difference in androgen levels in the testes of these animals.

Cannabinoids inhibit testosterone secretion by mouse testes in vitro

Addition of delta-9-tetrahydrocannabinol or cannabinol to an incubation medium containing decapsulated mouse testes caused a significant reduction in the accumulation of testosterone in the medium. This result suggests that the reported effects of cannabis on male sexual and reproductive function may result from direct inhibition of testicular steroidogenesis by both psychoactive and nonpsychoactive constituents of marihuana.

Testicular LH binding in the hamster: modification by photoperiod and prolactin

Suppression of testicular weight and activity induced in the hamster by light deprivation can be partially reversed by treatment with prolactin (PRL). The present study investigates the possibility that the stimulatory effect of PRL in this preparation may be mediated through increased LH binding. Hamsters exposed to 5 h light per day for two months to induce gonadal atrophy were injected daily for 2 1/2 weeks with saline, 250 mug PRLP, 20 MUG LH+150 mug FSH, or PRL+LH+FSH. Short light control animals exhibited significantly less LH binding than controls on 14 h of light per day. Treatment with LH+FSH had no effect on LH binding while PRL alone or in combination with LH+FSH increased binding to levels greater than the long light controls. Peripheral testosterone concentrations reflected the level of LH binding. Scatchard analysis indicates that the decreased binding in the short-day animals is due to reduced LH receptor numbers and that PRL treatment elevates receptor levels thereby increasing LH binding. These results suggest that the mechanism by which PRL stimulates testicular function in hamsters with regressed gonads is through increased binding of endogenously produced LH.

Effects of experimentally-induced chronic hyperprolactinemia on testosterone and gonadotropin levels in male rats and mice

We have examined testicular and pituitary function in inbred CD-F rats and DBA/2J mice with chronic hyperprolactinemia induced by grafting 4 anterior pituitaries from adult females of the same strain under the kidney capsule. Eight rats were given pituitary isografts and 9 were sham-operated; blood samples were collected at 4-7 week intervals, and the animals were killed 6 months later. One month after surgery, PRL levels in grafted rats were elevated (348 +/- 15 vs. 94 +/- 11 ng/ml; P less than 0.001), LH levels were depressed (16 +/- 3 vs. 59 +/- 9 ng/ml; P less than 0.001), but T levels were not affected (1.0 +/- 0.1 vs. 1.1 +/- 0.2 ng/ml). The elevated PRL levels in grafted animals did not decline during the subsequent 5 months, while LH levels increased slightly, and T levels remained indistinguishable from those in the controls. At the time of autopsy, FSH levels were reduced in grafted rats (230 +/- 40 vs. 501 +/- 108 ng/ml; P less than 0.05). Multiple pituitary isografts did not affect the weight of the testes or the ventral prostate, but increased the weight of the seminal vesicles (P less than 0.001). In 11 mice examined 5.5 months after receiving pituitary isografts, plasma PRL levels were dramatically elevated (330 +/- 35 vs. 27 +/- 2 ng/ml; P less than 0.001), but plasma T levels and testicular weight were not different from those observed in 12 sham-operated controls. The weight of the seminal vesicles in grafted mice was increased (P less than 0.01). In both rats and mice, chronic hyperprolactinemia did not affect plasma testosterone levels or testes weight and increased seminal vesicle weight.