R. Van Ginckel

New non-steroidal aromatase inhibitors: Focus on R76713

R76713 is a novel triazole derivative which selectively blocks the cytochrome P450-dependent aromatase. In human placental microsomes, in FSH-stimulated rat and human granulosa cells and in human adipose stromal cells, 50% inhibition of estradiol biosynthesis was obtained at drug concentrations of 2-10 nM. In PMSG-injected female rats, R76713 lowered plasma estradiol levels by 50 and 90% 2 h after single oral doses of 0.005 and 0.05 mg/kg respectively. After 1 mg/kg, estradiol levels were suppressed by 90% for 16 h. In male cynomolgus monkeys, R76713 dose-dependently (0.03-10 micrograms/kg) inhibited peripheral aromatization with an ED50 of 0.13 microgram/kg without altering metabolic clearance rates and conversion ratios. In vitro R76713 had no effect on other P450-dependent steroidogenic enzymes up to 1000 nM at least. In rats, LHRH-, ACTH- and sodium-deprived diet stimulated plasma testosterone, corticosterone and aldosterone levels were not modified 2 h after single oral administrations of R76713 (up to 20 mg/kg). Furthermore, R76713 did not show any in vitro or in vivo estrogenic or antiestrogenic property. R76713 also induced regression of DMBA-induced mammary tumors after daily oral administration of 1 mg/kg b.i.d. In male volunteers (n = 4), a single oral dose of 5 and 10 mg lowered median plasma estradiol levels from 70 pM to the detection limit of the assay (40 pM) 4, 8 and 24 h after intake whereas no changes were detected after placebo administration. In premenopausal women (n = 15), receiving a single oral dose of 20 mg, median plasma estradiol levels decreased from 389 pM (before) to 168, 133 and 147 pM, 4, 8 and 24 h after intake whereas they remained above 420 pM after placebo (n = 7).

Experimental studies with liarozole (R 75,251): an antitumoral agent which inhibits retinoic acid breakdown.

Liarozole reduced tumor growth in the androgen-dependent Dunning-G and the androgen-independent Dunning MatLu rat prostate carcinoma models as well as in patients with metastatic prostate cancer who had relapsed after orchiectomy. In vitro, liarozole did not have cytostatic properties, as measured by cell proliferation in breast MCF-7 and prostate DU145 and LNCaP carcinoma cell lines. It did not alter the metabolism of labeled testosterone i.e. the 5 alpha-reductase in cultured rat prostatic cells. In mouse F9 teratocarcinoma cells liarozole did not show any retinoid-like properties but enhanced the plasminogen activator production induced by retinoic acid. Furthermore, liarozole and retinoic acid similarly reduced the growth of the androgen-dependent Dunning-G tumor in nude mice and inhibited tumor promotion elicited by phorbol ester in mouse skin. These data have raised the hypothesis that the antitumoral properties of liarozole may be related to inhibition of retinoic acid degradation, catalyzed by a P-450-dependent enzyme that is blocked by the drug.

Aromatase in the human choriocarcinoma JEG-3: Inhibition by R 76 713 in cultured cells and in tumors grown in nude mice

The aromatase enzyme and its inhibition by R 76 713 were characterized in the JEG-3 choriocarcinoma cell line in culture and in JEG-3 tumors grown in nude mice. Optimal cell culture parameters and enzyme reaction conditions for the determination of aromatase activity were established. Under these conditions, in vitro JEG-3 aromatase was inhibited by R 76 713 with IC50-values of 7.6 +/- 0.5 nM and 2.7 +/- 1.1 nM using 500 nM of androstenedione and testosterone as substrate respectively. The Km-value of the aromatase enzyme with androstenedione as substrate was 62 +/- 19 nM; with testosterone as substrate, a value of 166 +/- 27 nM was found. In the presence of increasing concentrations of R 76 713, the Km-values increased while the Vmax remained unchanged. Using androstenedione and testosterone as substrate Lineweaver-Burk analysis of the data showed Ki-values for R 76 713 of 0.43 +/- 0.06 nM and 0.47 +/- 0.39 nM respectively. R 76 713 appeared to competitively inhibit the JEG-3 aromatase. Aromatase could easily be measured in homogenates of JEG-3 tumors grown in nude mice and showed Km-values similar to those found for JEG-3 cells in vitro. IC50-values for inhibition of tumor aromatase by R 76 713 were also similar to those found in cultured cells. Tumor aromatase measured ex vivo, 2 h after a single oral administration of R 76 713 was dose-dependently inhibited. An ED50-value of 0.05 mg/kg was calculated. The JEG-3 choriocarcinoma proved to be a useful aromatase model enabling the comparative study of aromatase inhibition in vitro and in vivo.

Dl-2-oxo-3-(2-mercaptoethyl)-5-phenylimidazolidine. A sulfhydryl metabolite of levamisole that interacts with microtubules

DL-2-Oxo-3-(2-mercaptoethyl)-5-phenylimidazolidine (OMPI) a sulfhydryl metabolite of levamisole, unlike the parent compound, is shown to interfere with the morphological and functional integrity of microtubules in cultured cells at high concentrations (1.6-10(-4) M). Lower concentrations do not affect the cell morphology, viability or growth rate in any appreciable way. Both levamisole and OMPI, at low concentrations (10(-5)-10(-6) m), markedly enhance the antimicrotubular effect of mercaptoethanol. High concentrations of OMPI (+/- 10(-4) M) inhibit the self-assembly of microtubules in a cell free system. Low concentrations (+/- 10(-6) M) markedly enhance the polymerization rate of tubulin. Levamisole has no effect on tubulin polymerization. The effects of OMPI on microtubules in cells and in the polymerization system can be reversed by reduced glutathione, cysteine and dithiothreitol. The data indicate that OMPI interacts in a biphasic manner with microtubule formation probably through interaction with critical SH-groups on the tubulin molecule. It seems of interest to further investigate the hypothesis that the immunomodulating properties of levamisole are at least partially due to the formation of its metabolite (OMPI) which could enhance microtubule integrity and function in leukocytes.

Endocrine and Antitumoral Effects of R76713 in Rats

Some effects of daily oral administration of a new non-steroidal aromatase inhibitor on the pituitary-gonadal and adrenal functions were investigated in female rats. At doses of 1 mg/kg twice daily or higher, R 76713 lowered plasma estradiol levels to the range measured after ovariectomy Plasma progesterone levels and uterine weights decreased whilst LH levels increased but to a lesser extent than after ovariectomy. The other hormonal data show that long-term administration of R 76 713 does not modify the gluco- and mineralocorticoid hormone levels even at the highest dose studied (20 mg/kg, 4 h after treatment). Furthermore, both ovariectomy and R 76 713 treatment (1 and 5 mg/kg twice a day) induced almost complete regression of 9,12-dimethyl-1,2-benzanthracene-induced mammary carcinoma in rats. The appearance of new tumors during the treatment period was completely inhibited by R 76 713 whilst multiplicity of the remaining tumors was dramatically reduced.

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.

Influence of the synthetic microtubule inhibitor erbulozole (P.I.N.N.) (R 55 104), a new tubulozole congener, and gamma irradiation on murine tumors in vivo

Erbulozole (P.I.N.N.) (R 55 104) is a more water soluble congener of the synthetic microtubule inhibitor tubulozole (R 46 846) exhibiting a reversible antimicrotubular activity in vitro at a dose (1.56 x 10(-8) M) which is at least 10-fold lower. The compound also has an antiinvasive potential and shows antitumoral effects both in vitro and in vivo when administered appropriately. Eighty mg/kg R 55 104, given orally 6 h before or 3 h after radiotherapy, displays a prominent interactive effect with 10 Gy gamma irradiation in subcutaneous murine tumors which is similar to 160 mg/kg tubulozole administered 6 h before 10 Gy. The enhancing effect is also observed in a clinically relevant radiation dose fractionation schedule whereby eight fractions of 2 Gy each were pretreated 2 h before with 40 mg/kg R 55 104. Further study of this radiochemotherapeutic combination may lead to new clinical applications.