Effects of the nonsteroidal aromatase inhibitor, Fadrozole, on sexual behavior in male rats.

The new nonsteroidal aromatase inhibitor, Fadrozole (CGS 16949A, CIBA-Geigy Corp.), was tested for its ability (i) to inhibit the conversion of testosterone (T) to estradiol (E2) in brain and (ii) to suppress male sexual activity. Sprague-Dawley rats were castrated and immediately given sc Silastic T-implants and osmotic minipumps delivering 2.5 mg/kg/day Fadrozole (N = 4), 0.25 mg/kg/day Fadrozole (N = 4), or water (N = 4 controls). T-implants were removed after 6 days and, 3 days later, 3H-T (1 microCi/g) was given as an iv bolus. No 3H-E2 was detected in hypothalamic or amygdaloid nuclear pellets from Fadrozole-treated males but this metabolite predominated in controls. However, nuclear concentrations of 3H-T and [3H]dihydrotestosterone were similar in all groups. In another group of males (N = 18), brain aromatase activity was reduced by more than 96% at the 0.25 mg/kg dose level. Additional castrated, T-implanted males received minipumps delivering 0.25 mg/kg/day Fadrozole (six males) or water (six behaviorally matched controls) and were tested weekly with receptive females. After 2 weeks, ejaculations were reduced by 77% compared with controls (P less than 0.01) and, after 4 weeks, intromissions were also significantly reduced (P less than 0.05) but less so (48%). Radioenzymatic estimates of plasma aromatase inhibitor levels remained elevated throughout Fadrozole treatment. These males were then given Silastic E2 implants: intromissions increased significantly in 1 week (P less than 0.01), but ejaculations remained below control values. Results supported the view that aromatization is important for sexual behavior in male rats and suggested that Fadrozole has utility for studying the mechanisms by which testosterone affects behavior.     

Steroid control of sexual behavior and brain aromatase in the dove: effects of nonaromatizable androgens, methyltrienolone (R1881), and 5 alpha-dihydrotestosterone

This study examines the effects of nonaromatizable androgens, methyltrienolone (R1881) and 5 alpha-dihydrotestosterone (DHT) on aggressive courtship and vocal behavior in the male ring dove. Since androgens may influence behavior by increasing the formation of estrogen in the brain, the effects of R1881 and DHT on brain aromatase activity were also studied using an in vitro microassay. Under conditions in which testosterone induced aggressive courtship patterns, the nonaromatizable androgens were ineffective. But DHT and R1881 induced vocal behavior with equal efficiency, indicating that androgens can influence mechanisms of vocal behavior without conversion to estrogens. The behavioral effectiveness of both hormones was reduced (approximately 50%) when the period between castration and treatment was doubled. Testosterone propionate increased formation of E2 from 3H-testosterone in both the preoptic (POA) and anterior hypothalamic areas. Neither of the nonaromatizable androgens affected POA aromatase activity. The results suggest that only the aromatizable androgen, testosterone, which is also required specifically for male courtship, increases preoptic formation of estrogen.     

Conversion of testosterone to estradiol may not be necessary for the expression of mating behavior in male Syrian hamsters (Mesocricetus auratus)

Male sexual behavior is mediated in part by androgens, but in several species, mating is also influenced by estradiol formed locally in the brain by the aromatization of testosterone. The role of testosterone aromatization in the copulatory behavior of male Syrian hamsters is unclear because prior studies are equivocal. Therefore, the present study tested whether blocking the conversion of testosterone to estradiol would inhibit male hamster sexual behavior. Chronic systemic administration of the nonsteroidal aromatase inhibitor Fadrozole (2.0 mg/kg/day) for 5 or 8 weeks did not significantly increase mount latency or reduce mount frequency, intromission frequency, ejaculation frequency, or anogenital investigation relative to levels shown by surgical controls. However, Fadrozole effectively inhibited aromatase activity, as evidenced by the suppression of estrogen-dependent progesterone receptor immunoreactivity in the male hamster brain. The JZB39 anti-progesterone receptor antibody labeled significantly more neurons in brains of sham-treated hamsters than in brains of Fadrozole-treated hamsters. These data suggest that aromatization of testosterone to estradiol is not necessary for normal mating behavior in Syrian hamsters.     

Aromatase activity in the rat brain: Hormonal regulation and sex differences

The intracellular conversion of testosterone to estradiol by the aromatase enzyme complex is an important step in many of the central actions of testosterone. In rats, estrogen given alone, or in combination with dihydrotestosterone, mimics most of the behavioral effects of testosterone, whereas treatment with antiestrogens or aromatase inhibitors block facilitation of copulatory behavior by testosterone. We used a highly sensitive in vitro radiometric assay to analyze the distribution and regulation of brain aromatase activity. Studies using micropunch dissections revealed that the highest levels of aromatase activity are found in an interconnected group of sexually dimorphic nuclei which constitutes a neural circuit important in the control of male sexual behavior. Androgen regulated aromatase activity in many diencephalic nucleic, including the medial preoptic nucleus, but not in the medial and cortical nuclei of the amygdala. Additional genetic evidence for both androgen-dependent and -independent control of brain AA was obtained by studies of androgen-insensitive testicular-feminized rats. These observations suggest that critical differences in enzyme responsiveness are present in different brain areas. Within several nuclei, sex differences in aromatase induction correlated with differences in nuclear androgen receptor concentrations suggesting that neural responsiveness to testosterone is sexually differentiated. Estradiol and dihydrotestosterone acted synergistically to regulate aromatase activity in the preoptic area. In addition, time-course studies showed that estrogen treatment increased the duration of nuclear androgen receptor occupation in the preoptic area of male rats treated with dihydrotestosterone. These results suggest possible ways that estrogens and androgens may interact at the cellular level to regulate neural function and behavior.     

Acute and chronic effects of an aromatase inhibitor on territorial aggression in breeding and nonbreeding male song sparrows

Many studies have demonstrated that male aggression is regulated by testosterone. The conversion of testosterone to estradiol by brain aromatase is also known to regulate male aggression in the breeding season. Male song sparrows (Melospiza melodia morphna) are territorial not only in the breeding season, but also in the nonbreeding season, when plasma testosterone and estradiol levels are basal. Castration has no effect on nonbreeding aggression. In contrast, chronic (10 day) aromatase inhibitor (fadrozole) treatment decreases nonbreeding aggression, indicating a role for estrogens. Here, we show that acute (1 day) fadrozole treatment decreases nonbreeding territoriality, suggesting relatively rapid estrogen effects. In spring, fadrozole decreases brain aromatase activity, but acute and chronic fadrozole treatments do not significantly decrease aggression, although trends for some behaviors approach significance. In gonadally intact birds, fadrozole may be less effective at reducing aggression in the spring. This might occur because fadrozole causes a large increase in plasma testosterone in intact breeding males. Alternatively, estradiol may be more important for territoriality in winter than spring. We hypothesize that sex steroids regulate male aggression in spring and winter, but the endocrine mechanisms vary seasonally.     

Chronic inhibitory effects of two aminophenyl pyrrolidinediones on aromatase [Poster 11]

The aromatase-inhibiting effects of aminoglutethimide and of two aminophenyl-2, 5-pyrrolidinediones were studied in rats treated with pregnant mares' serum gonadotropin. All three compounds significantly inhibited ovarian aromatase activity and reduced plasma estradiol concentrations after 5 days of treatment. One of the aminophenyl pyrrolidinediones was less potent than the other two compounds, the IC₅₀ values for inhibition of the aromatization of testosterone being 19.6 μM for aminoglutethimide and 21 and 63.1 μM for the aminophenyl pyrrolidinediones.     

Conversion of androgens to estrogens in the male squirrel monkey (saimiri sciureas)

Many New World primates such as the squirrel monkey have extraordinarily high plasma levels of steroid hormones including cortisol, testosterone, progesterone and vitamin D₃. While plasma estrogen levels in female squirrel monkeys apparently are approximately the same as those found in other species no information is available for males. The present results indicate that the plasma levels of estrone (E1), estradiol (E2), and E1 sulfate are approximately 10-fold higher than those found in men. Comparative studies of androgen metabolism in genital skin fibroblasts indicate that squirrel monkey cells have higher aromatase and lower 5--reductase activity than human cells. Estimation of aromatase activity by a radiometric assay indicates that the high plasma estrogens are derived by peripheral conversion from testicular and/or adrenal androgens.     

Aromatase activity after a short-course of letrozole administration in adult men at sea level and at high altitude (with or without excessive erythrocytosis)

Men living at high altitudes in Peru compared to sea level counterparts have erythrocytosis (hemoglobin 16-21?g/dl) or excessive erythrocytosis (hemoglobin>21?g/dl). High testosterone (T) levels in men at high altitude (HA) were associated with excessive erythrocytosis. High androgen levels could be due to a low aromatase activity or to an elevated rate of conversion from precursors to testosterone. The aim of this study was to evaluate aromatase activity and rate of conversion from precursors to testosterone before and after administration of the aromatase enzyme inhibitor letrozole (5?mg/day) for a 5-day period to men at HA and at sea level (SL). The response to short term aromatase inhibition was assessed in 30 adult men living at sea level, 31 native men at HA with erythrocytosis (Hb 16-21?g/dl), and 35 men at HA with excessive erythrocytosis (Hb>21?g/dl). Serum hormone levels, estradiol/testosterone, testosterone/androstenedione, and testosterone/dehydroepiandrosterone sulfate (DHEAS) ratios were measured. Men with erythrocytosis had lower basal serum T/androstenedione ratios than men with excessive erythrocytosis at HA and men at sea level. Men at HA with excessive erythrocytosis had higher T/DHEAS ratios than men with erythrocytosis and than those at sea level before and after letrozole administration. After letrozole administration, both groups of men at high altitude (with erythrocytosis or with excessive erythrocytosis) showed lower aromatase activities than those at sea level. In conclusion, higher serum testosterone levels in men with excessive erythrocytosis were associated with an increased rate of conversion from DHEAS to testosterone rather than to a lower aromatase activity.     

Testosterone metabolism in the medial basal hypothalamus of the starved male rat

The conversion of testosterone to estradiol by aromatase and to dihydrotestosterone by 5 alpha-reductase was measured in the medial basal hypothalamus of starved and control male rats. Activities of both enzymes were significantly reduced in starved animals. Aromatase activity was 18.2 +/- 2.3 versus 29.8 +/- 5.7 fmol E2/mg protein/90 min (mean +/- SEM, P less than 0.02) and 5 alpha-reductase was 4.95 +/- 0.35 versus 5.96 +/- 0.30 pmol DHT/mg protein/90 min (P less than 0.02) for starved and control animals respectively. The results indicate that hypothalamic metabolism of testosterone is decreased during starvation. Therefore the increased sensitivity of the T-LH feedback described earlier in starved rats [4] cannot be explained by changes in central testosterone metabolism.     

Neuroprotection by the steroids pregnenolone and dehydroepiandrosterone is mediated by the enzyme aromatase

Pregnenolone and dehydroepiandrosterone (DHEA) are sex hormone precursors and neuroprotective steroids. Effects of pregnenolone and DHEA may be in part mediated by their conversion to testosterone and by the consecutive conversion of testosterone to estradiol by the enzyme aromatase. This enzyme is induced in reactive astrocytes after different forms of neurodegenerative lesions and the resultant local production of estradiol in the brain has been shown to be neuroprotective. The participation of aromatase in the neuroprotective effect of pregnenolone and DHEA has been assessed in this study. The protective effect of different doses (12.5, 25, 50, and 100 mg/kg) of pregnenolone or DHEA, against systemic kainic acid (7 mg/kg b.w.), was assessed on hippocampal hilar neurons in gonadectomized Wistar male rats. To determine whether the neuroprotective effect of pregnenolone and DHEA was dependent on their conversion to estradiol, the aromatase inhibitor fadrozole (4.16 mg/ml) was administered using subcutaneous osmotic minipumps. The number of Nissl-stained neurons in the hilus of the dentate gyrus of the hippocampal formation was estimated by the optical disector method. The administration of kainic acid resulted in a significant decrease in the number of hilar neurons compared to rats injected with vehicles. Pregnenolone and DHEA showed a dose-dependent protective effect of hilar neurons against kainic acid. The administration of the aromatase inhibitor fadrozole blocked the neuroprotective effect of pregnenolone and DHEA. These findings suggest that estradiol formation by aromatase mediates neuroprotective effects of pregnenolone and DHEA against excitotoxic-induced neuronal death in the hippocampus.     

The effect of anastrozol on spatial memory in adult rats

Androgens are known to affect cognitive functions via organizational and activational effects. It is unknown whether the effects are mediated via the androgen receptor or after conversion to estradiol with aromatase via estrogen receptors. The aim of our study was to find out whether testosterone affects spatial memory directly or through its metabolite estradiol. Rats were treated with testosterone; with testosterone and the aromatase blocker anastrozole or saline. An 8 radial arm maze was used for testing spatial memory twice daily for 4 days. Each arm was baited with food, and the ability of animals to learn the location of food was assessed. Testosterone treated rats and control rats achieved comparable coefficients of spatial memory, although the plasma levels of testosterone differed markedly. Anastrozole treatment resulted in the worst performance in the maze. The differences between groups did not reach the level of significance. It can be concluded that aromatase and, thus, the conversion of testosterone to estradiol may play a role in spatial memory, as pharmacological blockade of aromatase led to a decrease in maze performace of adult male rats. Detailed molecular mechanisms should be the focus of further studies.     

Effects of short days on aromatization and accumulation of nuclear estrogen receptors in the hamster brain

Exposure of hamsters to short days increases sensitivity to the negative feedback effects of testosterone (T) but decreases responsiveness to the behavioral effects of the hormone. Since T is metabolized in the brain to 5 alpha-dihydrotestosterone (DHT) and estradiol, which differentially affect gonadotropin secretion and sex behavior, it is reasonable to postulate that daylength can modulate neural responses by quantitative or qualitative alterations in T metabolism and subsequent receptor binding of active hormone. Experiments reported here focused on aromatization and the nuclear accumulation of estrogen receptors. Adult male hamsters were maintained for 6-12 wk in long (14:10 LD) or short (8:16 LD) daily photoperiods. Both intact and castrated animals were used to assess direct effects of short days versus changes due to short-day-induced testicular regression. Discretely dissected regions of the brain (preoptic area, POA; hypothalamus, HTH; and corticomedial amygdala, CMA) or limbic blocks (LIM) comprised of all three regions were assayed for estrogen-synthesizing activity (aromatase) and estrogen-binding activity (receptors). Aromatase was estimated in vitro by conversion of [7-(3)H] androstenedione to [3H] estrogen and in vivo by measuring increases in nuclear estrogen receptor levels after injection of aromatizable androgen. Receptor-binding activity was assayed in crude cytosolic and nuclear extracts by incubating samples with [3H] estradiol +/- 100-fold excess inert estradiol, and separating free and bound steroids by Sephadex LH-20 gel filtration. When aromatase was assayed in homogenates prepared from discrete brain regions of individual hamsters, significantly lower activity was found in the HTH of short-day animals than in long-day controls. This effect was seen in both intact and castrated animals, which indicates that it was not mediated by the testis. Decreased enzyme activity in the POA and CMA of short-day hamsters was not significant, nor was there an effect of castration independent of short days. Low levels of nuclear estrogen receptors were present in LIM of intact males, but these were reduced after castration or concomitant with testicular regression after short-day exposure. This suggests that the hamster testis normally secretes estrogen or aromatizable androgen. A single injection of estradiol or aromatizable androgen (T or androstenedione) increased nuclear receptors in LIM of castrated animals. Cytosolic receptors were not different in short-day vs. long-day hamsters, nor were there differences in nuclear receptor levels after a single estradiol injection.(ABSTRACT TRUNCATED AT 400 WORDS)     

Reducing estrogen synthesis does not affect gonadotropin secretion in the developing boar

Boars have high concentrations of plasma and testicular estrogens, but how this hormone is involved in feedback regulation of the gonadotropins and local regulation of testicular hormone production is unclear. The present study examined the effects of reducing endogenous estrogens by aromatase inhibition on concentrations of plasma LH and FSH and on testicular and plasma concentrations of testosterone (T) and immunoreactive inhibin (INH). Thirty-six littermate pairs of boars were used. One boar from each pair was assigned to the control group (vehicle); the other boar to the treatment group (aromatase enzyme inhibitor, Letrozole, 0.1 mg/kg body weight [BW]). Weekly oral treatment started at 1 wk of age and continued until castration at 2, 3, 4, 5, 6, 7, or 8 mo. Plasma concentrations of gonadotropins, INH, T, estradiol (E2), and estrogen conjugates (ECs) were determined. Testicular tissue was collected at castration for determination of INH and T and for confirmation of reduced aromatase activity. The acute effects of aromatase inhibition on gonadotropins were monitored in two adult boars treated once with Letrozole (0.1 mg/kg BW). Treatment with the aromatase inhibitor reduced testicular aromatase activity by 90% and decreased E2 and ECs without changing acute, long-term, or postcastration LH and FSH. Plasma T, testicular T, and circulating INH concentrations did not change. Testicular INH was elevated in treated boars compared with controls. In conclusion, estrogen does not appear to play a regulatory role on gonadotropin secretion in the developing boar. This is in direct contrast to findings in males of several other species.     

Local estradiol metabolism in osteoblast- and osteoclast-like cells

Bone is an estradiol-responsive tissue. Estrogen withdrawal during the menopause causes loss of bone mass and clinically relevant osteoporosis in a third of all women. Sufficient or impaired local production, as well as degradation of estradiol in cells present in the bone microenvironment might be an important mechanism of rescue or might contribute to the development of osteoporosis, respectively. We therefore investigated aromatase and 17β-hydroxysteroid dehydrogenase type IV (17β-HSD IV) expression in osteoblast- and osteoclast-like cells. Aromatase mRNA was increasingly expressed in myeloid THP 1 cells differentiated along the monocyte/phagocyte pathway exploiting vitamin D and either granulocyte-macrophage-stimulating factor (GMCSF) or macrophage-stimulating factor (MCSF). In long-term cultures, when sequentially exposed to vitamin D (days 0–21) and GMCSF (days 5–10) and plated on collagen, the amount of expression of aromatase mRNA steadily increased along with the increasing expression of osteopontin mRNA, ν integrin mRNA, c-fms (MCSF-receptor) mRNA and multinucleated cells developing. The conversion of estradiol from testosterone (10⁻⁷ M/1) in the supernatants of dishes mirrored changes in aromatase mRNA expression and by day 21 rose to 30,000 ng/10⁷ cells/24 h. 17β-HSD IV mRNA expression was abundant in undifferentiated THP 1 cells and was decreased to approximately 50% by day 21. Unstimulated SV-40 immortalized fetal osteoblasts did not express aromatase mRNA, but the expression was stimulated by the addition of the phorbol ester phorbol myristate acetate (PMA). Unstimulated osteoblasts from primary cultures did not express aromatase mRNA. Osteoblast-like osteosarcoma cells MG 63 expressed faint levels of aromatase mRNA in contrast to the osteosarcoma cell line HOS 58. 17β-HSD IV mRNA was expressed in fetal osteoblasts as well as in osteoblasts from primary culture, MG 63 and HOS 58 cells. In summary, we can show the expression of estradiol metabolizing enzymes in cells which are present in the bone microenvironment. Impaired aromatase expression and/or enhanced expression of 17β-HSD IV may contribute to the pathogenesis of osteoporosis.     

Steroid metabolism in the gonads of a patient with testicular feminization. II. Metabolism of c19- and c18-steroids in vitro.

The metabolism of C19- and C18-steroids, in particular, the aromatization of androstenedione and testosterone, the interconversion of androgens to estrogens and the 5alpha-reductase activity of a right abdominal (r) and a left inguinal (l) testis of a patient with testicular feminization, are reported. Aromatization and 5alpha-reductase activity were also evaluated in tissue from the left ductus diferens (ld). The following results were obtained: 1. aromatization of androstenedione to estrone 2.52% (r), 0.02% (l), 0.94% (ld); 2. aromatization of testosterone to estradiol 0.58% (r), 2.88% (l); 3. conversion of androstenedione to testosterone 95.65% (r), 98.07% (l); 4. conversion of testosterone to androstenedione 33.14% (r), 53.65% (l); 5. conversion of estrone to estradiol85.29% (r), 100% (l), 6. conversion of estradiol to estrone 33.12% (r), 32.33% (l); 7.5alpha-reduction of testosterone to 5alpha-dihydrotestosterone 12.01% (r), 13.64% (l) and 4.10% (ld). A lack of 5alpha-reductase activity was not found in the tissues examined as stated in the literature. Estrogen production in these testes was demonstrated by the aromatization of androstenedione and testosterone to estrone and estradiol and is reflected in the difference of the estradiol concentration measured in spermatic and peripheral blood of the same patient (168 versus 33 pg/ml).     

Aromatase inhibition by R 83 842, the dextro isomer of R 76 713, in JEG-3 choriocarcinoma grown in ovariectomized nude mice

The effects of repeated (5 days) dosing with the non-steroidal aromatase inhibitor R 83 842 (the dextro isomer of R 76 713) on tumor aromatase and uterus weight in ovariectomized nude mice bearing JEG-3 tumors were examined. In animals bearing an androstenedione implant the presence of a JEG-3 tumor significantly increased uterus weight, proving that tumor aromatase indeed converted androgens to estrogens. Oral administration of R 76 713 (10 mg/kg) for 5 days reduced the increase in uterus weight by 84% in tumor bearing mice revealing true in vivo aromatase inhibition by R 76 713.

Experiments performed in the absence of exogenously added androgens gave similar results. Uterus weights in tumor bearing mice were significantly higher than in control mice. Oral administration of R 83 842 (5 mg/kg) for 5 days reduced uterus weight in the tumor bearing animals. Ex vivo aromatase measurements performed in JEG-3 tumors from these animals showed an aromatase inhibition of 93.9% in treated mice as compared to untreated mice. Five days oral treatment with R 83 842 dose-dependently lowered both aromatase activity and uterus weight. Doses of 5 and 0.5 mg/kg inhibited tumor aromatase by 94.1 and 74.7%, respectively, and reduced uterus weight. After a dose of 0.05 mg/kg aromatase activity and uterus weight were similar to those in the control group.     

Inhibition of estradiol synthesis attenuates renal injury in male streptozotocin-induced diabetic rats

We previously showed that the male streptozotocin (STZ)-induced diabetic rat exhibits decreased circulating testosterone and increased estradiol levels. While supplementation with dihydrotestosterone is partially renoprotective, the aim of the present study was to examine whether inhibition of estradiol synthesis, by blocking the aromatization of testosterone to estradiol using an aromatase inhibitor, can also prevent diabetes-associated renal injury. The study was performed on male Sprague-Dawley nondiabetic, STZ-induced diabetic, and STZ-induced diabetic rats treated with 0.15 mg/kg of anastrozole, an aromatase inhibitor (Da) for 12 wk. Treatment with anastrozole reduced diabetes-associated increases in plasma estradiol by 39% and increased plasma testosterone levels by 187%. Anastrozole treatment also attenuated urine albumin excretion by 42%, glomerulosclerosis by 30%, tubulointerstitial fibrosis by 32%, along with a decrease in the density of renal cortical CD68-positive cells by 50%, and protein expression of transforming growth factor-β by 20%, collagen type IV by 29%, tumor necrosis factor-α by 28%, and interleukin-6 by 25%. Anastrozole also increased podocin protein expression by 18%. We conclude that blocking estradiol synthesis in male STZ-induced diabetic rats is renoprotective.     

Non-steroidal inhibition of granulosa cell aromatase activity in vitro

Treatment of cyclic rats with the substituted triazole R151885 (1,1-di (4-fluorophenyl)-2-(1,2,4-triazol-1-yl)-ethanol causes delayed ovulation with suppressed blood oestradiol levels. To determine if R151885 can exert a direct action on ovarian oestrogen biosynthesis, we studied its effect on steroidogenesis in granulosa cell cultures from prepubertal rat ovaries. The cells were incubated for 48 h in medium containing 100 ng human FSH/ml and 10(-7) M testosterone to induce steroidogenic enzymes. When R151885 was also present in the culture medium, there was a marked and concentration-dependent reduction in granulosa cell oestradiol production. Inhibition was half-maximal at approx 3 X 10(-7) M and almost complete at 10(-5) M R151885. Progesterone and 20 alpha-hydroxy-4-pregnen-3-one production were unaffected except by the highest concentration of the substituted triazole (36% inhibition at 10(-5) M). Direct assessment of aromatase activity in the 48-h cultured monolayers (oestradiol formation during a 3-h incubation with 10(-7) M testosterone) was made to determine if the inhibitory effect of R151885 was due to reduced aromatase induction/activation. This was not the case, since cells cultured in the presence of 10(-6) or 10(-5) M R151885 had levels of aromatase up to 60% higher than those cultured in its absence. To determine acute effects of R151885 on testosterone (10(-7) M) aromatization, 3-h incubations were carried out using granulosa cell suspensions with high extant aromatase activity due to stimulation by ovine FSH (100 micrograms sc, twice daily for 2 days) in vivo. The triazole acted as an apparent competitive aromatase inhibitor (apparent Km for testosterone 2.5 X 10(-8) M in the absence of R151885 rising to 4.4 X 10(-8) M in the presence of 10(-7) M R151885). Its potency as an aromatase inhibitor was approximately 10 times greater than that of the naturally occurring steroidal aromatase inhibitor 5 alpha-dihydrotestosterone. Various structurally related substances proved to be even more potent aromatase inhibitors than R151885. The most active were also substituted 4,4'-difluorophenyl derivatives containing an imidazolyl or pyridyl moiety instead of the 1,2,4-triazolyl substituent in R151885. This study has identified a novel series of nonsteroidal substances which have the characteristics of potent and specific inhibitors of testosterone aromatization by rat granulosa cells in vitro.     

Brain aromatase and 5alpha-reductase, regulatory behaviors and testosterone levels in adult rats on phytoestrogen diets.

The purpose of this study was to examine the short-term effects of phytoestrogens in the diet on regulatory behaviors (food/water intake and locomotor activity), prostate weight, testosterone levels, and brain androgen metabolizing enzyme activity levels in adult male rats. Sprague-Dawley rats were fed phytoestrogen-containing versus phytoestrogen-free diets for 29 days. Standard methods were used to measure open field behavior, reproductive, hormonal parameters, and enzymatic activity levels. The phytoestrogen diet contained approximately 200 microg/g of isoflavones whereas in the phytoestrogen-free diet, no phytoestrogens were detected by HPLC analysis. There were no significant differences in any of the regulatory behaviors (food/water intake or locomotor activity), prostate weight, or testosterone levels between the treatment groups. Furthermore, there was no significant influence of phytoestrogens on brain aromatase activity levels, in either the medial basal hypothalamic-preoptic area (MBH-POA) or amygdala brain tissue sites examined. However, significant alterations in MBH-POA and amygdala 5alpha-reductase activities were detected in animals receiving the phytoestrogen-containing versus the phytoestrogen-free diets.