A. Häusler

Highly selective inhibition of estrogen biosynthesis by CGS 20267, a new non-steroidal aromatase inhibitor

CGS 20267 is a new non-steroidal compound which potently inhibits aromatase in vitro (IC50 of 11.5 nM) and in vivo (ED50 of 1-3 micrograms/kg p.o.), CGS 20267 maximally inhibits estradiol production in vitro in LH-stimulated hamster ovarian tissue at 0.1 microM with an IC50 of 0.02 microM and does not significantly affect progesterone production up to 350 microM. In ACTH-stimulated rat adrenal tissue in vitro, aldosterone production was inhibited with an IC50 of 210 microM (10,000 times higher than the IC50 for estradiol production); no significant effect on corticosterone production was seen at 350 microM. In vivo, in ACTH-treated rats, CGS 20267 does not affect plasma levels of corticosterone or aldosterone at a dose of 4 mg/kg p.o. (1000 times higher than the ED50 for aromatase inhibition in vivo). In adult female rats, a 14-day treatment with 1 mg/kg p.o. daily, completely interrupts ovarian cyclicity and suppresses uterine weight to that seen 14 days after ovariectomy. In adult female rats bearing estrogen-dependent DMBA-induced mammary tumors, 0.1 mg/kg p.o. given daily for 42 days caused almost complete regression of tumors present at the start of treatment. Thus compared to each other, CGS 16949A and CGS 20267 are both highly potent in inhibiting estrogen biosynthesis in vitro and in vivo. The striking difference between them is that unlike CGS 16949A, CGS 20267 does not affect adrenal steroidogenesis in vitro or in vivo, at concentrations and doses several orders of magnitude higher than those required to inhibit estrogen biosynthesis.

Structure-activity relationships and binding model of novel aromatase inhibitors.

The use of aromatase inhibitors is an established therapy for oestrogen-dependent breast cancer in postmenopausal women. However, the sole commercially available aromatase inhibitor, aminoglutethimide, is not very selective. We have therefore developed fadrozole hydrochloride and CGS 20,267, which are both currently under clinical evaluation. This report will present an analysis of structure-activity relationships in the azole series of inhibitors and give an account of the further optimization of our development compounds, starting from CGS 20,267 over CGP 45,688 and leading to CGP 47,645, the most potent aromatase inhibitor in vivo reported to date. In addition, on the basis of comparisons of these azole-type inhibitors with the most potent steroidal inhibitors published in the literature, we propose a CAMM-generated model describing the relative binding modes of these two classes of compounds at the active site of the enzyme.

Novel aromatase inhibitors

Aminoglutethimide (AG), an inhibitor of the aromatase enzyme, inhibits the biosynthesis of estrogens and displays well-documented anti-tumor efficacy in breast-cancer. However, this efficacy is accompanied by a relative lack of specificity in inhibiting aromatase and moderate tolerability. We report on two new non-steroidal aromatase inhibitors (CGS 16949A and CGS 18320B) which are more potent, selective and efficacious in their inhibition of aromatase than AG. Both compounds inhibit aromatase more potently in vitro and in vivo (over 400 and 1000 times respectively) than AG. They are both more selective in their inhibition of aromatase with CGS 18320B showing an improved selectively over CGS 16949A. When administered to adult female rats, both compounds elicit responses in serum hormones similar to those seen after ovariectomy. The duration of action of CGS 18320B, however, appears to be longer than that of CGS 16949A. CGS 18320B and CGS 16949A cause almost complete regression of DMBA-induced mammary tumors in adult female rats and almost completely suppress the appearance of new tumors. Thus CGS 16949A and CGS 18320B represent significant advances in the search for novel aromatase inhibitors which are more potent, selective and efficacious than aminoglutethimide.

The role of estrogen in the feedback regulation of follicle-stimulating hormone secretion in the female rat

Letrozole (CGS 20267) is a non-steroidal aromatase inhibitor which, at its maximally effective dose of 1 mg/kg p.o., elicits endocrine effects equivalent to those seen after ovariectomy. Adult, female cyclic rats were administered letrozole (1 mg/kg p.o.) once daily for 14 days. A control group of animals was ovariectomized on day 1 of treatment and a third group of animals served as untreated controls. During the experiment, vaginal smears were taken daily and at the end of 14 days all animals were sacrificed, trunk blood was taken for serum estradiol, LH and FSH measurements and the uterus and ovaries were removed and weighed. The ovaries were then fixed and prepared for histological examination. Serum hormone measurements showed that after treatment with letrozole, serum estradiol levels were reduced by 76% of untreated controls and serum LH was elevated to 378% of control values. These compared favorably with those seen after ovariectomy, serum estradiol was reduced by 78% and serum LH was elevated to 485% of untreated controls. However, FSH was unchanged after letrozole treatment (125% of control), whereas after ovariectomy FSH rose to 398% of control. Uterine weight was suppressed in the letrozole-treated animals as well as the ovariectomized animals by 60 and 70%, respectively. The histology of the ovaries of animals treated with letrozole were consistent with the serum hormone findings. Except for the effects on serum FSH, these results confirm previous findings that treatment with letrozole elicits endocrine effects similar to those seen after ovariectomy. Furthermore, these results demonstrate that FSH secretion is not under the control of estradiol whereas LH secretion is under feedback control of ovarian estrogen.

Adrenalectomy, Corticosteroid replacement and their importance for drug-induced memory-enhancement in mice

Adrenalectomy blocks the memory-improving effect of piracetam-like compounds in mice. If this blockade is due to the removal of endogenous corticosteroids, replacement therapy with exogenous corticosteroids should reinstate the effects on memory. The present experiments were designed to determine the appropriate replacement dose (concentration in the drinking fluid) for corticosterone and aldosterone, the main corticosteroids in mice. Based on the effects of corticosterone on thymus weight, replacement with 3 micrograms/ml corticosterone given in the drinking fluid (0.9% NaCl) for one week was found to be appropriate. The appropriate replacement dose for aldosterone was found by giving aldosterone to adrenalectomized (ADX) mice in the drinking fluid in combination with 3 micrograms/ml corticosterone. The combination of 3 micrograms/ml corticosterone + 30 ng/ml aldosterone resulted in a plasma ratio of corticosterone/aldosterone which most closely approximated the ratio seen in sham-ADX control animals. The physiologic adequacy of the corticosteroid replacement doses resulting from this study were clearly demonstrated in subsequent behavioral experiments where blockade of the memory-enhancing effects of piracetam by adrenalectomy were overcome by replacement with either 3 micrograms/ml corticosterone or 30 ng/ml aldosterone given in the drinking fluid.

Involvement of GABAB receptors in the regulation of the hypothalamo-pituitary-adrenocortical (HPA) axis in rats

Previous experiments have shown that the GABAB receptor agonist L-baclofen given subcutaneously to male rats significantly enhanced plasma concentrations of adrenocorticotropic hormone (ACTH) and the adrenocortical hormones corticosterone and aldosterone. The goal of the present study was to investigate whether the stimulatory effects on adrenocortical steroids elicited by L-baclofen in vivo could be reversed by the selective GABAB antagonist CGP 35 348. One hour before subcutaneous administration of 3 mg/kg L-baclofen, a dose of 600 mg/kg CGP 35 348 or saline was administered intraperitoneally. The stimulatory effect of L-baclofen on ACTH, corticosterone and aldosterone was significantly reduced by 60% after pretreatment with CGP 35 348. The GABAB antagonist CGP 35 348 by itself had no effect on ACTH or the adrenocortical hormones. These results indicate that GABAB receptors are involved in the L-baclofen-induced activation of the HPA axis in rats. In vitro, however, neither L-baclofen nor CGP 35 348 had any effects on corticosterone and aldosterone release from perifused adrenal cells. These results suggest that the participation of GABAB receptors in the activation of the HPA axis induced by L-baclofen in vivo does not occur at the level of the adrenal gland, and therefore must occur at the level of the pituitary or the brain.

CGP 53153: a new potent inhibitor of 5α-reductase

Abstract CGP 53153 ( N -2-(cyano-2-propyl)-3-oxo-4-aza-5α-androst-1-ene-17β-carboxamide) is a steroidal inhibitor of 5α-reductase, the enzyme which effects the conversion of testosterone (T) to 5α-dihydrotestosterone (DHT). In vitro , CGP 53153 competitively inhibited rat microsomal 5α-reductase from prostate by 50% (IC 50 ) at a concentration of 36 nM compared to the reference compound finasteride which inhibited 5α-reductase with an IC 50 of 11 nM in the same system. In vivo , inhibition of 5α-reductase activity was characterized in three different test systems. Inhibition of 5α-reductase activity was first assessed in a standard test designed to compare directly the potency of different 5α-reductase inhibitors. This test assesses potency through the inhibition of prostate growth in juvenile castrate male rats treated with a standard dose of T-propionate (1 mg/kg, s.c.) and a 5α-reductase inhibitor administered orally at various doses for 4 days. CGP 53153 and finasteride significantly reduced T-propionate-mediated prostate growth by about 25% (ED 25 ) compared to T-propionate-treated controls at oral doses of 0.01 and 0.1 mg/kg, respectively. Second, the effects on prostate weight were studied in normal adult male rats treated orally once daily for 14 days with 1, 3 and 10 mg/kg CGP 53153 and with 10 mg/kg finasteride. CGP 53153 significantly reduced prostate weight at 3 and 10 mg/kg by 31% and 37%, respectively, compared to vehicle-treated controls, whereas the dose of 10 mg/kg finasteride did not significantly reduce prostate weight. Third, the effects on prostate volume were studied in normal 6–9-year-old male dogs treated orally once daily with 5 mg/kg CGP 53153 and with 5 mg/kg finasteride for 12 weeks. Prostate volume was monitored with magnetic resonance imaging every 2 weeks beginning 6 weeks before start of the treatment with 5α-reductase inhibitors and ending after a recovery period of 8 weeks after termination of treatment. Treatment for 12 weeks with both CGP 53153 and finasteride was equally effective in reducing prostate volume by more than 70% in individual dogs. Anti-androgenic potency of CGP 53153 and finasteride was assessed in juvenile castrate male rats treated with DHT-propionate (1 mg/kg, s.c.) and a 5α-reductase inhibitor (p.o.) for 4 days. Neither CGP 53153 nor finasteride given at a dose of 10 mg/kg had any significant effect on DHT-propionate-mediated prostate growth, whereas the reference anti-androgen flutamide given at a dose of 10 mg/kg reduced prostate weight to levels comparable to those seen in untreated castrate animals. For CGP 53153, the dose of 10 mg/kg is 1000-fold higher than the ED 25 for 5α-reductase inhibition in vivo . In conclusion, both CGP 53153 and finasteride are potent inhibitors of the rat 5α-reductase enzyme system in vitro without showing any anti-androgenic effects in vivo . Both CGP 53153 and finasteride were equally potent in reducing prostate volume in aged male dogs, whereas in rats, CGP 53153 is up to 10 times more potent than finasteride in reducing prostate weight as shown in two different rat models.