Contraceptive potential of an antiprogestin ZK 98.734: reversal of ZK 98.734--induced blockade of folliculogenesis with FSH and LH and their differential effects in bonnet monkeys.

Studies were undertaken in adult bonnet monkeys to investigate whether treatment with an antiprogestin ZK 98.734 at weekly intervals, starting from day one of menstrual cycle, could arrest ovulation and also to determine if ZK 98.734 induced blockade of ovulation could be reversed with gonadotropins. Adult animals have ovulatory menstrual cycles of normal duration were treated at weekly intervals with ZK 98.734 (25 mg/dose, sc, oil base) for 10 consecutive weeks and its effects on serum levels of estradiol, bioactive LH and progesterone, and endometrial histology were investigated. Following treatment with the antiprogestin they were treated with hMG or hFSH alone. Ovulation was blocked during treatment period in all the animals (n = 14). Typical follicular phase rise in estradiol levels was inhibited, mid cycle surge in the levels of bioactive LH was abolished and serum progesterone levels remained below 1 ng/ml throughout the treatment period. However, prolonged treatment had no significant effect on the basal levels of estradiol which were around 50 pg/ml. ZK 98.734 also had no significant effect on cortisol levels. In animals (n = 4) followed for recovery after the last dose, the treatment cycle length was increased to 117.8 + 6.8 days. In three animals the treatment cycles were anovulatory, whereas in one delayed ovulation with luteal insufficiency was observed. The endometrium had become atrophic. Treatment with hMG (Pergonal: 35 I.U. hLH and 35 I.U. hFSH) or hFSH (Metrodin, 35 I.U.) for 7 consecutive days initiated folliculogenesis and the animals ovulated either spontaneously or after a single im injection of hCG (100 I.U.) on day 8 in ZK 98.734 treated animals.(ABSTRACT TRUNCATED AT 250 WORDS)

Effects of progesterone antagonist, lilopristone (ZK 98.734), on induction of menstruation, inhibition of nidation, and termination of pregnancy in bonnet monkeys.

The effects of a progesterone antagonist, lilopristone (ZK 98.734), on induction of menstruation, inhibition of implantation or pregnancy, and termination of early and mid-pregnancy were studied in bonnet monkeys. In the regularly menstruating animals, administration of lilopristone (25 mg/day, s.c.) during the mid-luteal phase (Days 20-22 of the menstrual cycle) induced menstruation within 2-4 days after the initiation of treatment. A premature drop in circulating progesterone levels was also observed. The luteolytic effect of lilopristone was prevented by exogenous treatment with hCG; however, the animals showed premature menstruation, in spite of high progesterone levels (above 4 ng/ml). Treatment around the time of implantation (between Days 8 and 12 after the mid-cycle peak in estradiol levels) in mated animals provided 100% pregnancy protection. Treatment of pregnant animals on Days 30-32 of the menstrual cycle, i.e. about Day 20 after the estradiol peak, induced abortion in 8 of 10 animals. A significant (p less than 0.05) decrease in serum progesterone levels was observed on Day 3 after the initiation of treatment. However, the decrease was slower (slope: -0.36, r: 0.96) compared to that observed in nonpregnant animals (slope: -0.72, r: 0.95). In the other two animals, pregnancy was not affected. However, when the treatment was delayed until about Day 50 after the estradiol peak, all four animals aborted. This study suggests that lilopristone is a progesterone antagonist with a potential to induce menstruation, inhibit nidation, and terminate pregnancy. The antifertility effects are mediated through blocking progesterone action at the endometrium as well as decreasing progesterone bioavailability, which appears to be due to its effects on gonadotropin release.

Suppression of bioactive luteinizing hormone and testosterone by a progesterone antagonist ZK 98.734 in adult male common marmosets, Callithrix jacchus.

The effects of a progesterone antagonist ZK 98.734 on release of bioactive luteinizing hormone (LH) and testosterone were studied in adult male common marmosets by using the following experimental protocols: (1) the blocking of the nocturnal rise in testosterone levels by ZK 98.734, (2) the pharmacodynamic effects of ZK 98.734 on testosterone and LH levels, (3) the reversal of ZK 98.734-induced decrease in testosterone by treatment with human chorionic gonadotropin (hCG), and (4) the blocking of estradiol-induced positive feedback release of LH by ZK 98.734. Sixteen adult male common marmosets were used for different experiments after resting them for at least 4 wk between experiments. Testosterone and bioactive LH levels were measured by specific radioimmunoassay and in vitro bioassay methods, respectively. Treatment (i.m.) of male common marmosets (n = 6/group) with ZK 98.734 (1 mg or 5 mg/day) at 1700 h for 3 consecutive days significantly (p less than 0.05) suppressed the nocturnal (2200 h) rise in testosterone levels. The effects of the two doses were not dose-related; however, the decrease on the first day of treatment was more pronounced with the 5-mg dose than with the 1-mg dose. Diurnal rhythms were restored during the post-treatment period. Similarly, treatment with ZK 98.734 (5 mg, n = 8/group) at 1000 h caused a decrease in testosterone and LH levels. The levels were significantly (p less than 0.05) lower at 3 and 6 h after treatment compared to pretreatment levels.(ABSTRACT TRUNCATED AT 250 WORDS)

Effects of progesterone antagonist ZK 98.299 on early pregnancy and foetal outcome in bonnet monkeys.

The antiprogestin ZK 98.299 (onapristone) was injected subcutaneously (25 mg/day) for 4 consecutive days during early pregnancy to 8 bonnet monkeys. Retrospective analysis of the data showed that the treatment was initiated between 20 to 30 days after the mid-cycle peak in estradiol levels. In 7 animals, vaginal bleeding was induced within 3.6 +/- 2.7 days (mean +/- S.D.) after the initiation of treatment. However, pregnancy was terminated completely only in 5 animals. In these 5 animals, menstruation was induced 1 to 4 days after the initiation of treatment. Serum progesterone levels also decreased; however, a significant decrease (p less than 0.02) in mean levels was not observed until 5 days after the initiation of treatment. In the other 3 animals, in spite of some drop in serum progesterone levels after the treatment and slight vaginal bleeding in 2 animals, the pregnancy continued. Two animals delivered stillborn foetuses at term. The foetuses weighed 92 and 105 g, which is markedly lower than the normal foetal weight (345 +/- 48 g, n = 6) at birth. The gross appearance of the foetuses was suggestive of recent intrauterine foetal death. In the third animal hysterotomy was performed on day 65; foetus weighed 5 g. Haematoma and blood clots were seen in the placental tissue. This limited data on 8 animals demonstrates that ZK 98.299, at the dose regimen employed, completely terminates early pregnancy in 62% of animals. In the cases in which treatment failed, the pregnancy did not continue unaffected. The endocrine function of the placenta was affected and the foetal growth was retarded.(ABSTRACT TRUNCATED AT 250 WORDS)

Progesterone antagonist lilopristone: a potent abortifacient in the common marmoset.

The effects of a progesterone antagonist ZK 98.734 (lilopristone) on implantation, early pregnancy, and midpregnancy were studied in the common marmoset, Callithrix jacchus jacchus. Treatment (5 mg/da intramuscularly for 3 consecutive days) on day (n = 8) after the midcycle peak in estradiol levels in mated animals induced a premature drop in plasma progesterone levels and shortened the ovarian cycle length. Treatment on day 20 (n = 5) or day 40 (n = 5) induced a drop in progesterone levels and decidual collapse. In three animals treated on day 40, vaginal bleeding was observed within 46 hours of the initiation of treatment. Treatment on day 80 resulted in expulsion of the fetuses with a mean induction abortion interval of 39 hours (range, 20 to 48 hours). The progesterone antagonistic effects of ZK 98.734 could be a result of the decrease in progesterone synthesis by the corpus luteum and/or placenta in addition to the interference with the progesterone binding to its cellular receptors in the target organ. Our study suggests that ZK 98.734 has potential for fertility regulation. Clinical trials for postcoital contraception, induction of menstruation, and early abortifacient effects are warranted.

Binding characteristics of progesterone and antiprogestin ZK 98.299 in human endometrial and myometrial cytosol.

The binding of ZK 98.299, a synthetic progesterone antagonist, with human endometrium and myometrium cytosol was studied and compared with that of progesterone. Progesterone showed specific saturable binding to its receptors in both endometrium and myometrium. ZK 98.299 and progesterone were mutually competitive for binding to progesterone receptors; however, the relative binding affinity of ZK 98.299 was 16% that of progesterone. ZK 98.299 exchanged the progesterone-labelled receptor sites. [3H]ZK 98.299 showed specific binding which was linearly related to the cytosol protein concentration. The binding was not saturable at 15 nM of ligand. The binding capacity and binding affinity of ZK 98.299 receptor was less than that of progesterone. Progesterone also partially displaced the binding of [3H]ZK 98.299. This study suggest that ZK 98.299 and progesterone both bind to the same protein. However, whether ZK 98.299 binds to progesterone receptors alone or even to other functionally related sites is not known. It appears that ZK 98.299 when present in higher concentration than progesterone would be an effective receptor ligand.

Gonadal and pituitary responses to progesterone antagonist ZK 98.299 during the follicular phase of the menstrual cycle in bonnet monkeys.

ZK 98.299 is a potent progesterone antagonist. Its effects on folliculogenesis, bioactive LH, ovulation and menstrual cycle (m.c.) length were studied in adult bonnet monkeys. ZK 98.299 (20 mg/day) was administered s.c., once daily on days 5 to 15 of m.c., to ten animals. The pretreatment m.c. was of 26.5 days (25 to 28 days, mean with 95% confidence limits) and on treatment it was significantly (p less than 0.001) prolonged to 46.9 days (39 to 54 days). The anticipated midcycle rise in estradiol and bioactive LH levels was completely blocked in six and attenuated in three animals during the treatment period. However, the levels did not drop below the early follicular phase levels. In one animal (#90), though the cycle length was prolonged by 5 days the midcycle rise in estradiol and bioactive LH levels was observed during the treatment period and this animal had normal luteal function. Seven animals had delayed ovulation whereas, two had anovulatory treatment cycles. The rise in estradiol and bioactive LH levels, prior to ovulation in the treatment cycles, was compatible with the midcycle rise observed in the pretreatment cycles. Serum progesterone levels during the luteal phase of the treatment cycles were normal in six animals whereas, in two they were indicative of luteal insufficiency. In two animals, the treatment cycles were anovulatory. ZK 98.299 had no effect on the duration of menses. The post-treatment cycles were of normal duration. This study suggests that the administration of ZK 98.299 during the follicular phase blocks estradiol and bioactive LH release and terminates the follicular phase in most of the animals. The follicular phase is reinitiated after the treatment is stopped.

Effect of antiprogestin ZK 98.734 on the ovarian cycle, early pregnancy, and on its binding to progesterone receptors in the myometrium of marmoset Callithrix jacchus.

The antiprogestin ZK 98.734 (11 beta-(4-dimethylaminophenyl-17 beta-hydroxy-17 alpha-(3-hydroxy-prop-1(Z)-enyl-4,9(10)-estradien-3-one) was administered i.m. (5 mg/day) for three consecutive days to two groups of common marmosets. In one group (nonpregnant, n = 6), it was injected during the luteal phase, and to the second group (pregnant, n = 7), it was injected during early pregnancy, on Days 24-26 of the mid-cycle estradiol peak. Administration of ZK 98.734 during the luteal phase caused a sharp drop in plasma progesterone levels. The luteal phase was shortened whether the drug was administered during the early or the late luteal phase. Similarly, administration of ZK 98.734 during early pregnancy caused a significant drop in progesterone levels, and pregnancy was terminated in all of the animals. The post-treatment cycles in both groups of animals were ovulatory and of normal duration. 3H-ZK 98.734 showed specific binding to myometrial cytosol fraction. ZK 98.734 also displaced the binding of 3H-progesterone to progesterone receptors. However, progesterone had higher binding affinity than did ZK 98.734. The antifertility action of ZK 98.734 could be a result either of its luteolytic action or of its blocking the progesterone receptors in the target tissue. This study, therefore, indicates that in the common marmoset ZK 98.734 is a progesterone antagonist with a potential to terminate early pregnancy.

Relative binding affinity of antiprogestins ZK 98.299 and ZK 98.734 for progesterone receptors in the endometrium and myometrium of bonnet monkeys.

Progesterone bound with high affinity to the endometrial and myometrial cytosol of ovariectomized bonnet monkeys pretreated with estradiol benzoate and progesterone. The equilibrium dissociation constant (Kd) of 3H-progesterone was 4.5 nM and 5.5 nM and the binding capacity was 1.7 nM and 1.4 nM for the endometrial and myometrial receptors, respectively. This experimental 'model' was used to assess the relative binding affinity (RBA) of progesterone, ZK 98.299 and ZK 98.734. The tested compounds showed competitive binding to cytoplasmic progesterone receptors. The RBA of progesterone in the endometrium (100) was more than that of ZK 98.299 (25.1) and ZK 98.734 (17.8). A similar RBA pattern was observed in the myometrial cytosol. Both ZK 98.299 and ZK 98.734, like progesterone, displaced the 3H-progesterone bound to the receptors. The administration of ZK 98.299 or ZK 98.734, during the mid-luteal phase, has been reported to shorten the cycle length in bonnet monkeys and marmosets, respectively. These compounds, therefore, appear to intercept the progesterone action by blocking progesterone binding sites in the target tissue. Since ZK 98.299 has higher binding affinity than ZK 98.734, it may be a more potent progesterone antagonist.