Effects of immobilization stress on tuberoinfundibular dopaminergic (TIDA) neuronal activity and prolactin levels in lactating and non-lactating female rats.

The effects of immobilization stress on the prolactin secretory response and on the activity of the tuberoinfundibular dopaminergic (TIDA) neurons were determined in intact, virgin female rats on the morning of diestrus or proestrus and in post-partum, lactating female rats. The virgin females exhibited a significant increase in circulating levels of prolactin which was evident by 1 minute and persisted during the immobilization (5 minutes). In contrast, the prolactin secretory response in lactating females was significantly attenuated compared to non-lactating animals. The activity of the TIDA neurons was not altered by the 5 minutes of stress. Even after 30 minutes of immobilization, TIDA neuronal activity was not affected in either the lactating or cycling females. These data suggest that the cycling female rat is capable of a prolactin secretory response to the stressor without inhibition of TIDA neuronal activity. It seems likely that prolactin releasing factors mediate this response. In contrast, stress did not produce a similar prolactin increase during lactation. It seems likely that, during lactation, the pituitary is not sensitive to releasing factors unless the TIDA neurons are inhibited. There appear to be differences in the sensitivity of the pituitary depending on the physiological state of the model employed.     

Immunocytochemical and biochemical studies on the localization and changes of 17 alpha-hydroxylase/C17-C20 lyase activity in immature rat ovary treated with PMSG and hCG

The localization of cytochrome P-450 of 17 alpha-hydroxylase/C17-C20 lyase (P-450(17 alpha, lyase] and the changes of the enzyme activity were studied immunocytochemically and biochemically in the ovaries of immature rats treated with PMSG (pregnant mare serum gonadotropin) and hCG (human chorionic gonadotropin). Immunocytochemically, P-450(17 alpha, lyase) was localized in both the theca interna cells and interstitial gland cells of the ovaries of immature rats treated with PMSG for 48 h. After hCG administration, the immunoreactive cells rapidly decreased in number in the PMSG-pretreated rat ovary. Namely, 6 h after the hCG injection, positive staining for P-450(17 alpha, lyase) was recognized only in a few theca interna cells, while 12 h after the injection to immunostained cells were detected in the ovary. Forty-eight hours after the hGC treatment (96 h after the PMSG injection), most of the theca interna cells and the interstitial gland cells became immunopositive for P-450(17 alpha, lyase) again. The 17 alpha-hydroxylating activity of P-450(17 alpha, lyase) was 0.5, 0.22 and 0.03 nmol/min/mg protein in the ovarian microsomes of PMSG-treated, PMSG + hCG(3 h)-treated and PMSG + hCG(6 h)-treated rats, respectively. Changes of the hydroxylase activities in all the experimental groups are almost parallel to those of P-450 contents in the microsomes.(ABSTRACT TRUNCATED AT 250 WORDS)     

Effect of diethylstilbesterol and prolactin on the induction of follicle stimulating hormone receptors in immature and cycling rats

Induction of follicle stimulating hormone receptor in the granulosa cells of intact immature rat ovary by diethylstilbesterol, an estrogen, has been studied. A single injection of 4 mg of diethylstilbesterol produced 72 h later a 3-fold increase in follicle stimulating hormone receptor concentration as monitored by [¹²⁵I]-_oFSH binding to isolated cells. The newly induced receptors were kinetically indistinguishable from the preexisting ones, as determined by Lineweaver-Burk plot of the binding data. The induced receptors were functional as evidenced by increased ability of the granulosa cells to incorporate [³H]-leucine into cellular proteins. Neutralization of endogenous follicle stimulating hormone and luteinizing hormone by administering specific antisera had no effect on the ability of diethylstilbesterol to induce follicle stimulating hormone receptors, whereas blockade of endogenous prolactin secretion by ergobromocryptin administration significantly inhibited (∼ 30 %) the response to diethylstilbesterol; this inhibition could be completely relieved by ovine prolactin treatment. However, ovine prolactin at the dose tried did not by itself enhance follicle stimulating hormone receptor level. Administration of ergobromocryptin to adult cycling rats at noon of proestrus brought about as measured on diestrusII, (a) a reduction of both follicle stimulating hormone (∼ 30 %) and luteinizing hormone (∼ 45 %) receptor concentration in granulosa cells, (b) a drastic reduction in the ovarian tissue estradiol with no change in tissue progesterone and (c) reduction in the ability of isolated granulosa cells to convert testosterone to estradiol in response to follicle stimulating hormone. Ergobromocryptin treatment affected only prolactin and not follicle stimulating hormone or luteinizing hormone surges on the proestrus evening. Treatment of rats with ergobromocryptin at proestrus noon followed by an injection of ovine prolactin (1 mg) at 1700 h of the same day completely reversed the ergobromocryptin induced reduction in ovarian tissue estradiol as well as the aromatase activity of the granulosa cells on diestrus II, thus suggesting a role for proestrus prolactin surge in the follicular maturation process     

Characterization of pregnant mare's serum gonadotropin-stimulated rat ovarian aromatase and its inhibition by 10-propargylestr-4-ene-3,17-dione

Aromatase, the important regulatory enzyme that converts androgens to estrogens, is found in relatively high levels in the human placenta. However, since the ovary is the major source of the estrogens in females, we undertook studies to compare the rodent ovarian enzyme with that from human placenta. Pregnant mare's serum gonadotropin (PMSG) markedly increases aromatase activity in the ovaries of immature rats, and this model was used in order to reproducibly obtain high enzyme levels. An injection of PMSG resulted in a specific stimulation of aromatase activity 12 times the increase in ovarian weight in 48 h. Kinetic studies demonstrated that, although the PMSG-stimulated ovarian microsomes had one-tenth the specific activity of the human placenta, the Km values were similar (about 33 and 44 nM, respectively). The potent inhibitor of placenta aromatase, 10-propargylestr-4-ene-3,17-dione, was used to further characterize the enzyme. It inhibited the rat aromatase with an I50 of 36 nM and exhibited time-dependent inhibition with a half-life of inactivation of 16 min and a Ki of 15 nM. These values are similar to those we obtained with the human enzyme (10 nM, 12 min, and 5 nM, respectively). The enzyme parameters in the presence and absence of the inhibitor suggest that the enzymes from the two sources are kinetically quite similar.     

Pharmacology of vorozole

Vorozole (R83842) is a potent and selective, non-steroidal aromatase inhibitor. It is the dextro-enantiomer of the triazole derivative R 76 713. In FSH-stimulated rat granulosa cells, vorozole inhibited aromatase activity with an IC₅₀-value of 1.4±0.5 nM. In pregnant mare serum gonadotropin (PMSG)-primed female rats, plasma estradiol levels measured 2 h after single oral administration of vorozole were significantly reduced by drug doses of 0.001 mg/kg and higher, with an ED₅₀-value of 0.0034 mg/kg. In ovariectomized nude mice, bearing an estrogen-producing JEG-3 choriocarcinoma, 5 days treatment with vorozole, dose-dependently reduced uterus weight and completely inhibited tumor aromatase, measured ex vivo. Vorozole showed IC₅₀-values higher than 10 μM for inhibition of progesterone synthesis in rat granulosa cells, for inhibition of steroid biosynthesis in isolated rat testicular and adrenal cells and for inhibition of steroid binding to estrogen-, progestin-, androgen- and gluco- and mineralocorticoid-receptors. In LHRH/ACTH-injected male rats and in rats fed a sodium-deprived diet, single oral administration of up to 10 mg/kg vorozole did not affect plasma levels of testicular and adrenal steroids. The compound also had no in vivo estrogen or androgen (ant)agonistic properties. In the DMBA-induced rat mammary carcinoma model, vorozole at an oral dose of 2.5 mg/kg b.i.d. inhibited tumor growth similarly to ovariectomy.     

Inhibition of ovulation in the gonadotropin-primed immature rat by exogenous prostaglandin E2.

In the past two decades there have been innumerable reports that prostaglandins (PGs) are essential for mammalian ovulation. However, we have recently found that a relatively low dose of 0.03 mg indomethacin (INDO) sc to PMSG/hCG-primed immature Wistar rats can significantly reduce ovarian PG levels without inhibiting the control ovulation rate of 60+ ova/rat (1-3). In view of this information, the present study was an effort to duplicate the earlier reports that PGs can reverse the "inhibitory" effect of INDO on ovulation. In control animals, which received PMSG and hCG only, the ovulation rate was 63.8 +/- 4.5 ova/rat. This rate was reduced to 4.1 +/- 1.1 ova/rat when the animals were injected with 1.0 mg INDO at 3 h after hCG. In no instance was this inhibition reversed when the animals were treated with 1.0 mg of PGE2 or PGF2 alpha, or a combination of both prostanoids in either a single dose at 3 h after hCG, or in 4x doses at 2-h intervals beginning at 3 h after hCG. Furthermore, in animals that did not receive INDO, the ovulation rate in PGE2-treated animals was reduced to 20.0 +/- 6.7 ova/rat, and in animals treated with PGE2 and PGF2 alpha (combined) it was reduced to 19.4 +/- 6.5 ova/rat. In summary, not only did the PGs fail to reverse the anti-ovulatory effect of INDO, PGE2 actually suppressed the ovulation rate.     

Stimulation of prostaglandin synthetase activity in rat granulosa cells by gonadotropins

The effect of exposure to gonadotropin on prostaglandin synthetase activity in rat granulosa cells was examined in two experimental settings. The first setting was immature rats treated with pregnant mare's serum gonadotropin (PMSG) and human chorionic gonadotropin (hCG). The second was mature rats on the day of proestrus. In the experiments using immature rats, the administration of hCG (20 I.U.) at noon of the second day after the PMSG (20 I.U.) injection led to large (more than 5 fold) increases in granulosa cell prostaglandin synthetase activity 5 and 10 h later. Follicular fluid PGE levels were also markedly increased at 5 and 10 h after hCG. Similar results were also found in experiments performed with mature proestrus rats. Granulosa cell prostaglandin synthetase activity was elevated at approximately 4 and 8 h after the endogenous LH surge (about 4 p.m. on proestrus), in comparison with the activity at midnight of diestrus, or noon and 4 p.m. on proestrus. In these experiments the changes in prostaglandin synthetase activity (10 fold) also paralleled the increases in follicular fluid PGE concentrations. Thus the exposure to gonadotropin produced essentially the same effect as we had reported earlier for isolated granulosa cells incubated with LH . The stimulation of prostaglandin synthetase activity must therefore be ascribed an important role in the physiological regulation of granulosa cell prostaglandin synthesis by LH.     

Effect of dihydrotestosterone on the growth and function of ovarian follicles in intact immature female rats primed with PMSG

Intact, immature female rats were primed with PMSG and treated with 4 injections of DHT. DHT given at 0, 12, 24 and 36 h caused a significant decrease in the ovulation rate 72 h after the PMSG treatment. Concurrent treatment with oestrogen reversed the inhibitory effects of the androgen. The androgen effect was apparently exerted directly on the ovary since DHT did not alter the surge of LH and FSH which occurred at 58 h after PMSG treatment. The DHT inhibition of ovulation was observed in the treatment cycle as well as in subsequent cycles which followed a second PMSG injection. This finding suggests that intermediate size follicles were also adversely affected by the androgen. To confirm that androgen affects follicles of all size ranges, follicles less than 200 microns, 200-400 microns and greater than 400 microns in diameter were isolated from the ovaries of rats treated with PMSG and DHT or the vehicle. The follicles were isolated by density gradient separation of follicles followed by filtration with pre-calibrated Teflon sieves. In some experiments, granulosa cells were also harvested from isolated follicles. DHT treatment did not affect the numbers of follicles of any size but did reduce the oestrogen content of follicles of all sizes. Follicles from DHT-treated animals contained fewer granulosa cells and the cells from treated animals had lower aromatase activity than did cells from control rats. Taken together, these findings suggest that DHT reduces the ovulation rate by decreasing the number of granulosa cells/follicle and by altering the oestrogen synthetic abilities of the cells. All follicles, regardless of size, were sensitive to androgen treatment.     

Does corpus luteum function autonomously during estrous cycle in the rat? A possible involvement of LH and prolactin

This study examined the of LH and prolactin in the control of corpus luteum function during 4-day cycles in the rat. Bromocriptine (BRC) treatment was performed on proestrus or/and estrus morning that means before or after the preovulatory release of LH. This caused complete blood prolactin depression from the time of injection until diestrus 1 afternoon. This decrease in blood prolactin concentration was associated with a rise in the tonic level of LH secretion in those females which received BRC as soon as on proestrus. We first observed that injection on the morning of proestrus of doses of BRC capable of blunting prolactin secretion on proestrus afternoon did not significantly impair the preovulatory release of LH and did not prevent ovulation occurring during the following night. The life span of the corpora lutea edified from ovarian follicles rupturing before or under BRC administration did not exceed that of those formed under physiological circumstances since 4-day cycles culminating in ovulation constantly took place in all the treated animals whatever the time of BRC injection. To determine the pattern of luteal activity in the absence of prolactin secretion, we measured blood progesterone concentration from estrus until late diestrus in female rats injected with BRC on proestrus and/or estrus at 1100 h. The initiation of the function of corpus luteum on estrus and the achievement of its full activity on diestrus 1 did not appear to be affected by BRC. By contrast the level of blood progesterone declined more rapidly on the morning of diestrus 2 in BRC-treated than in control females. The capacity for autonomous progesterone secretion by corpus luteum of the cycle was discussed in the light of previous and present observations.     

Immunocytochemical localization and enzymatic distribution of rat ovarian aromatase

A rabbit antiserum directed against purified human placental aromatase was used for immunohistochemical localization of the enzyme in rat ovaries. Immunostaining was conducted on tissue from animals at various ages and in different reproductive states: immature; immature, eCG-treated; immature pseudopregnant; adult cycling; and adult pregnant. Various labeling protocols were employed (e.g. horseradish peroxidase-conjugated secondary antibody, peroxidase-antiperoxidase, and avidin-biotin-peroxidase on fresh frozen and Bouin's fixed paraffin-embedded sections), but the avidin-biotin-peroxidase method on paraffin sections proved to be superior to the others. In immature rats, most of the immunostaining, which was quite weak, was limited to the stroma. After stimulation with eCG, some of the granulosa cells of antral follicles exhibited immunostaining; in pseudopregnant rats, most staining occurred in the luteal cells. In mature animals, the corpora lutea of pregnant and cycling rats demonstrated the greatest degree of immunostaining. No significant immunoreactivity was detected in pre-antral follicles, but in early antral follicles and preovulatory follicles, both theca and granulosa cells exhibited immunostaining. Aromatase enzymatic activity was also determined on ovarian microsomal fractions of eCG-treated immature animals, pregnant animals at term, and cycling animals. Furthermore, enzyme activity and estradiol concentrations were examined after ovaries from proestrous rats were dissected into follicular, luteal, and residual components. Activity was found in all regions and correlated with immunostaining and estrogen production. These results argue against a model in which all the immunoreactive/enzymatically active protein is localized in granulosa cells of Graafian follicles and suggest that corpora lutea may be involved in estrogen synthesis during the rat estrous cycle as well as during pregnancy.     

Fertilizability of Superovulated Eggs by Estrous Stage-independent PMSG/hCG Treatment in Adult Wistar-Imamichi Rats

We investigated the fertilization and developmental ability of superovulated eggs obtained from adult Wistar-Imamichi (WI) rats, by using pregnant mare serum gonadotropin (PMSG) and human chorionic gonadotropin (hCG) treatment. Female WI rats, 11–13 weeks of age, were divided into four groups by estrous stage (metestrus [ME], diestrus [DE], proestrus [PE], or estrus [E]). PMSG (150 IU/kg) and hCG (75 IU/kg) were injected at an interval of 48 or 55 h and the female rats were mated with mature male rats. The ovulated eggs were collected 20, 24, and 27 h after hCG injection. Regardless of the estrous stage at the time of PMSG injection, the treated rats mated and ovulated similar to the untreated spontaneously ovulated rats (S group). Although the proportion of fertilized eggs in the E- and PE-treated groups was less than the S group 20 h after hCG injection, the proportion was not different among all treated and S groups 24 h after hCG injection. The proportion of fertilized eggs using in vitro fertilization and the proportion of offspring obtained from 2-cell stage embryo transfer did not differ among the treated and S groups. In comparison with PMSG/hCG-treated immature rats, mating and ovulation rate of adult rats were significantly higher. The proportion of fertilized eggs obtained from mated rats did not differ between immature and adult rats. These results demonstrate that adult WI rats are good egg donors for reproductive biotechnological studies using unfertilized or fertilized eggs.     

Gonadotropin regulation of RIP140 messenger ribonucleic acid expression in the rat ovary

Female mice null for receptor-interacting protein 140 (RIP140) are infertile because of the failure of follicle rupture. The present study examined gonadotropin regulation of RIP140 expression in immature rat ovary. Treatment with PMSG increased ovarian RIP140 mRNA and protein levels. In contrast, hCG treatment rapidly inhibited RIP140 mRNA and protein levels within 1-3 h. RIP140 mRNA was detected in theca cells of growing follicles in untreated ovary and in granulosa cells in PMSG-treated ovary. Interestingly, hCG treatment reduced RIP140 mRNA levels in granulosa cells of preovulatory follicles, but not of growing follicles. Neither treatment of immature rats with diethylstilbestrol in vivo nor of immature granulosa cells with FSH in vitro affected RIP140 mRNA levels. Treatment of immature granulosa cells with 17beta-estradiol in vitro, however, stimulated RIP140 mRNA levels. In cultured preovulatory granulosa cells, RIP140 mRNA levels were stimulated at 1 h and then declined to below control levels by 3 h after LH treatment. Treatment with MDL-12,330A, an inhibitor of adenylate cyclase, or chelerythrine chloride, an inhibitor of protein kinase C (PKC), inhibited LH-stimulated RIP140 gene expression. Furthermore, forskolin or TPA treatment for 1 h mimicked the stimulatory action of LH, indicating the involvement of both adenylate cyclase and PKC pathways. These results demonstrate the stimulation by PMSG and inhibition by hCG of RIP140 expression in granulosa cells of preovulatory follicles in the rat ovary.     

Antiovulatory effect of a single injection of pure antiestrogen ZK 191703 at early stage of rat estrus cycle

The effects of ZK 191703 (ZK), a pure antiestrogen, on ovulation, follicle development and peripheral hormone levels were investigated in rats with 4-day estrus cycle and gonadotropin-primed immature rats in comparison to tamoxifen (TAM)-treatment. In adult rats, a single s.c. injection of ZK (5 mg/kg) or TAM (5 mg/kg) at an early stage of the estrus cycle (diestrus 9:00) inhibited ovulation, and was associated with suppression of the surge of preovulatory LH, FSH and progesterone. In rats treated with ZK or TAM at a late stage of the estrus cycle (proestrus 9:00), no inhibitory effects on ovulation, the gonadotropin and progesterone surge were detected. ZK treatment at diestrus 9:00, in contrast to TAM, increased the baseline LH level. When immature rats were treated with antiestrogens in the earlier stage of follicular development, 6 and 30 h but not 48 h or later after injection of gonadotropin (PMSG), ovulation was attenuated, associated with a lowered progesterone level. Unruptured preovulatory follicles were found in most of the ovaries from anovulatory animals treated with ZK or TAM. Antiestrogens, ZK and TAM administered at an early phase of the estrus cycle delay the follicular development functionally and inhibit ovulation in rats and suppression of the preovulatory progesterone surge.     

Stimulation of prostaglandin synthetase activity in rat granulosa cells by gonadotropins in vivo

The effect of $\text{in vivo}$ exposure to gonadotropin on prostaglandin synthetase activity in rat granulosa cells was examined in two experimental settings. The first setting was immature rats treated with pregnant mare's serum gonadotropin (PMSG) and human chorionic gonadotropin (hCG). The second was mature rats on the day of proestrus. In the experiments using immature rats, the administration of hCG (20 I.U.) at noon of the second day after the PMSG (20 I.U.) injection led to large (more than 5 fold) increases in granulosa cell prostaglandin synthetase activity 5 and 10 h later. Follicular fluid PGE levels were also markedly increased at 5 and 10 h after hCG. Similar results were also found in experiments performed with mature proestrus rats. Granulosa cell prostaglandin synthetase activity was elevated at approximately 4 and 8 h after the endogenous LH surge (about 4 p.m. on proestrus), in comparison with the activity at midnight of diestrus, or noon and 4 p.m. on proestrus. In these experiments the changes in prostaglandin synthetase activity (10 fold) also paralleled the increases in follicular fluid PGE concentrations. Thus the exposure to gonadotropin $\text{in vivo}$ produced essentially the same effect as we had reported earlier for isolated granulosa cells incubated with LH $\text{in vitro}$. The stimulation of prostaglandin synthetase activity must therefore be ascribed an important role in the physiological regulation of granulosa cell prostaglandin synthesis by LH.     

Inhibition of ovulation in the gonadotropin-primed immature rat by exogenous prostaglandin E2

In the past two decades there have been innumerable reports that prostaglandins (PGs) are essential for mammalian ovulation. However, we have recently found that a relatively low dose of 0.03 mg indomethacin (INDO) sc to PMSG/hCG-primed immature Wistar rats can significantly reduce ovarian PG levels without inhibiting the control ovulation rate of 60+ ova/rat (1–3). In view of this information, the present study was an effort to duplicate the earlier reports that PGs can reverse the “inhibitory” effect of INDO on ovulation. In control animals, which received PMSG and hCG only, the ovulation rate was 63.8 ± 4.5 ova/rat. This rate was reduced to 4.1 ± 1.1 ova/rat when the animals were injected with 1.0 mg INDO at 3 h after hCG. In no instance was this inhibition reversed when the animals were treated with 1.0 mg of PGE₂ or PGF_2α, or a combination of both prostanoids in either a single dose at 3 h after hCG, or in 4× doses at 2-h intervals beginning at 3 h after hCG. Furthermore, in animals that did not receive INDO, the ovulation rate in PGE₂-treated animals was reduced to 20.0 ± 6.7 ova/rat, and in animals treated with PGE₂ and PGF_2α (combined) it was reduced to 19.4 ± 6.5 ova/rat. In summary, not only did the PGs fail to reverse the anti-ovulatory effect of INDO, PGE₂ actually suppressed the ovulation rate.     

Immunocytochemical localization of aromatase in immature rat ovaries treated with PMSG and hCG,and in pregnant rat ovaries

Summary Immunocytochemical localization of aromatase cytochrome P-450 was examined in immature rat ovaries treated with pregnant mare serum gonadotropin (PMSG) and human chorionic gonadotropin (hCG), and in pregnant rat ovaries. It is well known that PMSG and hCG treatments induce ovulation about 12 h after hCG injection.At 24 h after hCG injection, many antral follicles were recognized in immature rat ovaries and only the granulosa cells in the antral follicles were stained weakly with the anti-aromatase antibody. At 0 to 9 h after hCG injection, in addition to the antral follicles, some large Graafian follicles could be observed in the rat ovaries, and the granulosa cells of these follicles were positively stained for aromatase. Each follicle was surrounded by the basal lamina which shows lineally distinct positive reaction against anti-laminin antibody. At 12 h after hCG injection, some large Graafian follicles without oocyte were weakly positive to the anti-aromatase antisera, and the outline of their basal lamina stained with anti-laminin antibody became irregular in shape and fragmentous. At 15 to 18 h after hCG injection, the luteinized cysts could be seen, and the granulosa-lutein cells of these cysts were almost negative for aromatase. Fragmentous reaction to the anti-laminin antibody was observed around the luteinized cysts.In the ovaries of day 4 in pregnancy, only the granulosa cells of the large antral follicles were weakly stained, but corpora lutea negatively reacted to the anti-aromatase antibody. At 7 to 19 days in gestation, both the granulosa cells of antral follicles and pregnant luteal cells were positively stained against aromatase antisera. The luteal cells were increased in size during pregnancy. And weakly positive reaction was detected on day 7 of pregnancy, then the immunoreaction became stronger in the corpora lutea on day 15 and 19 of pregnancy.The localization of aromatase was immunocytochemically examined in immature rat ovaries treated with PMSG and hCG injection, and the reaction of the granulosa cells of the antral follicles against anti-aromatase antibody became strongly positive about 12 h before ovulation and the became very weak suddenly after ovulation. In rat-ovaries, the pregnant corpora lutea was positively stained for aromatase after day 7 of pregnancy.This study was supported by Grants from the Ministry of Education, Science and Culture, Japan, and from USPHS Research Grants HD04945, USA     

Inhibition of aromatase activity in the rat by aminoglutethimide and related compounds

Two compounds possessing aromatase inhibitory activity have been evaluated for their effects on oestradiol (E2) biosynthesis in the rat. These compounds, structurally related to aminoglutethimide (1), were administered intra-peritoneally at two dose levels to 10 week old female rats previously treated with pregnant mares' serum gonadotrophin (PMSG, 100 i.u. subcutaneously every other day for 9 days). Three hours after dosing, blood was collected and plasma oestradiol levels determined by RIA. Aminoglutethimide, 3-(4'-aminophenyl-3-ethylpyrrolidine-2,5-dione (2) and N-methyl-3-(4'-aminophenyl)-3-ethylpyrrolidine-2,5-dione (3) decreased E2 blood levels by 98, 97 and 82% of control levels respectively (n = 6) at a dose of 50 mg/kg. Similarly effective inhibition was also observed at a dose of 25 mg/kg (n = 4). Ovarian aromatase activity, assessed by incubating the homogenised ovaries of treated rats with tritium-labelled androstenedione (0.2 microM) or testosterone (1 microM), indicated that residual enzyme activity was reduced compared with controls. Aminoglutethimide, and the new pyrrolidinedione aromatase inhibitors 2 and 3, are therefore effective inhibitors of E2 biosynthesis in the rat with functioning ovarian activity.     

Impact of the estrus cycle and reduction in estrogen levels with aromatase inhibition, on renal function and nitric oxide activity in female rats

Estradiol increases mRNA and/or protein expression of the nitric oxide synthase (NOS) isoforms in a variety of tissues including kidney. In this study we determined the relationship between cyclical variations in estradiol levels and renal function and total NO production in the virgin female rat. In addition, we used an aromatase inhibitor (Anastrozole), to inhibit synthesis of estradiol from testosterone. Estradiol levels were higher in proestrus vs. diestrus, and were markedly suppressed by 7 days treatment with aromatase inhibitor. There was no difference in total NO production (from urinary and plasma nitrate + nitrite = NO_X) between proestrus and diestrus but aromatase inhibition resulted in increases in total NO production. The renal cortical NOS activity and protein abundance also increased in aromatase-inhibited female rats. There were no differences in blood pressure (BP) in any group but the renal vascular resistance (RVR) was low in proestrus, increased in diestrus and did not change further after aromatase inhibition. In summary, the cyclical changes in renal function correlate with estradiol but not NO levels. Pharmacologic castration with aromatase inhibition leads to a marked increase in total and renal NOS. This contrasts to earlier work where surgical castration causes decreased NOS.     

Differences in the stress response of prolactin in young and aged female rats

The drawing of blood by orbital sinus puncture (OSP) under ether anesthesia is known to produce a marked increase in serum prolactin (PRL levels in young cycling female rats. The effect of this stressful procedure on PRL release was compared in young and aged female rats. Nonstressed PRL levels were obtained from blood drawn by decapitation. Whereas OSP with a one-minute ether exposure induced a marked increase in PRL levels in young rats on all days of the estrus cycle, older cycling female rats on the day of diestrus -1 and aged rats exhibiting prolonged diestrus (PD) showed virtually no increase above nonstressed levels. However, increasing the ether exposure time to five minutes did produce a rise in PRL levels. Old cycling female rats on the day of estrus and aged rats exhibiting constant estrus (CE) did show a PRL increase comparable to that seen in young animals. Ovariectomy (OVX) completely abolished the stress response seen in aged CE rats. The response, though markedly decreased, was still present in young ovariectomized rats. These experiments show that the stress-induced rise in PRL promoted by OSP under either anesthesia is markedly diminished in aged rats exhibiting a diestrus state. The attenuated response seen in these rats is believed due to factors characteristic of the diestrous state of aging.