J. Bruynseels

P450-dependent enzymes as targets for prostate cancer therapy

Metastatic prostate adenocarcinoma is a leading cause of cancer-related deaths among men. First line treatment is primarily aimed at blocking the synthesis and action of androgens. As primary endocrine treatment, androgen deprivation is usually achieved by orchidectomy or LHRH analogues, frequently combined with androgen receptor antagonists in order to block the residual adrenal androgens. However, nearly all the patients will eventually relapse. Available or potential second line therapies include, among others, alternative endocrine manipulations and chemotherapy. Cytochrome P450-dependent enzymes are involved in the synthesis and/or degradation of many endogenous compounds, such as steroids and retinoic acid. Some of these enzymes represent suitable targets for the treatment of prostate cancer. In first line therapy, inhibitors of the P450-dependent 17,20-lyase may achieve a maximal androgen ablation with a single drug treatment. Ketoconazole at high dose blocks both testicular and adrenal androgen biosynthesis but its side-effects, mainly gastric discomfort, limit its widespread use. A series of newly synthesized, more selective, steroidal 17,20-lyase inhibitors related to 17-(3-pyridyl)androsta-5,16-dien-3beta-ol, may open new perspectives in this field. In prostate cancer patients who relapse after surgical or medical castration, therapies aiming at suppressing the remaining adrenal androgen biosynthesis (ketoconazole) or producing a medical adrenalectomy (aminoglutethimide+hydrocortisone) have been used, but are becoming obsolete with the generalization of maximal androgen blockade in first line treatment. The role of inhibition of aromatase in prostate cancer therapy, which was postulated for aminoglutethimide, could not be confirmed by the use of more selective aromatase inhibitors, such as formestane. An alternative approach is represented by liarozole fumarate (LIA), a compound that blocks the P450-dependent catabolism of retinoic acid (RA). In vitro, it enhances the antiproliferative and differentiation effects of RA in cell lines that express RA metabolism, such as F9 teratocarcinoma and MCF-7 breast carcinoma cells. In vivo, monotherapy with LIA increases RA plasma levels and, to a greater extent, endogenous tissue RA levels leading to retinoid-mimetic effects. In the rat Dunning prostate cancer models, it inhibits the growth of androgen-independent as well as androgen-dependent carcinomas relapsing after castration. Concurrently, changes in the pattern of cytokeratins characteristic of increased differentiation were observed. Early clinical trials show that LIA, in second or third line therapy in metastatic prostate cancer, induces PSA responses in about 30% of unselected patients. In some patients regression of soft tissue metastasis ha been observed. In a subgroup of patients, an important relief of metastatic bone pain was also noted.

Levamisole, the story and the lessons.

The history of the use of levamisole in man is summarized, from its start as an anthelmintic in the early sixties, through its world-wide recognition as an immunotropic agent especially in the seventies and early eighties, and its return to clinical prominence in 1989-90 as an effective adjuvant treatment for operable colon cancer. The knowledge accumulated from experimental tumour models and from clinical use in various types of cancer, supplemented with the recent evidence obtained from large-scale controlled trials in resectable colon cancer is reviewed. It is speculated that we may not have seen the end of levamisole story yet; also, the role of serendipidity in drug research is emphasized.

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).

Early clinical experience with liarozole (Liazal) in patients with progressive prostate cancer.

Liarozole (Liazal) is the first retinoic acid (RA) metabolism blocking agent (RAMBA) in clinical practice. RAMBA therapy promotes differentiation and inhibits proliferation by increasing endogenous RA in tumours. Liarozole was investigated in two open-label pilot studies of 100 patients with progressive prostate cancer in relapse despite previous androgen ablation. Liarozole (150-300 mg twice daily, for > or = 1 month) produced > or = 50% reduction in prostate specific antigen (PSA) serum levels in 15 of 30 evaluable patients in study 1 (50%) and 10 of 55 patients in study 2 (18%). PSA responders had more marked reductions in prostatic acid phosphatase, alkaline phosphatase and symptom scores for bone pain and urological symptoms, and improved general well being. Plasma levels of adrenal androgens did not alter during chronic treatment with liarozole nor at adrenocorticotrophic hormone (ACTH) stimulation test. Liarozole did not alter plasma levels of adrenal androgens or cortisol. Cortisol response to ACTH stimulation was slightly blunted. Liarozole was generally well tolerated. Dermatological adverse events were probably related to increased intracellular RA. Liarozole appears to be a promising treatment option in prostate cancer.

Liarozole fumarate (R85246) : a novel imidazole in the treatment of receptor positive postmenopausal metastatic breast cancer

This phase II study of liarozole fumarate (R85246, liarozole), a novel imidazole with retinomimetic and aromatase inhibitory effects, was designed to determine the efficacy and tolerability in postmenopausal women with advanced breast cancer in progression, to correlate these effects with hormonal levels, and to evaluate quality of life. Twenty-nine women with ER-positive or unknown metastatic disease who received ≥ 2 prior hormonal therapies were treated with 150–300 mg liarozole twice daily until disease progression. All patients were evaluable for toxicity and 25 for response. Four patients (16.0%, 95% CI 5.3–37.4%) had partial remission (PR) of their disease for a median of 7.4 months (range 1.2–12.9) and 7 (28%) had disease stabilization for a median of 4.8 months (1.6–16.0). Estradiol decreased from pre-treatment levels of 9.2–52 pM (mean 17.1) to below detection (9.2 pM, p=0.0005) after 1 month. Similarly estrone levels fell from 14–307 pM (mean 92.7) to below detection (9.2 pM, p=0.0001). The most common toxicity was dermatological (96.6%) with features compatible with hypervitaminosis A syndrome such as rash, pruritus, dry skin, and brittle nails. The majority of these were mild to moderate in severity. No significant improvement in quality of life scores (FLI-C) were noted. Liarozole is an active new treatment for breast cancer in patients heavily pre-treated with hormone therapies. Further studies are needed to confirm its relative efficacy in both receptor positive and negative postmenopausal breast cancer.

Liarozole (R75251) in hormone-resistant prostate cancer patients

Liarozole is an imidazole derivative that has been identified as an inhibitor of the cytochrome P450‐dependent all‐trans retinoid acid (RA) breakdown. RA is one of the principal endogenous compounds that controls growth and differentiation of epithelial tissues in mammals.

Rivizor – A New Third-Generation Aromatase Inhibitor for the Treatment of Advanced Breast Cancer after Tamoxifen Failure

RivizorTM (vorozole) is a new, highly potent and selective third-generation aromatase inhibitor for treatment of advanced breast cancer. In an open-label study, 30 postmenopausal women failing tamoxifen therapy received Rivizor 2.5 mg once daily until disease progression. Rivizor produced clinical benefit (partial response or no change) in 16 of 27 evaluable patients (59.3%). Five patients (18.5%) had a partial response (UICC criteria) which lasted for a median of 15 months (range 14–42.5 months), 11 patients had disease stabilization for a median of 14 months (7–24 months), and 11 patients had disease progression. Median time to first response was 3.9 months (3–27.5 months): estimated median survival time for all patients was 22.8 months (2–52.8 months) and estimated median time to disease progression was 10.8 months (1.4–42.4 months). Estradiol levels decreased to below limits of detection from 1st month of treatment until study end. Androstenedione, 17α-hydroxyprogesterone, dehydroepiandrosterone, and free-testosterone levels were unaffected by Rivizor. ACTH stimulation tests demonstrated that Rivizor does not interfere with adrenal mineralocorticoid and glucocorticoid steroid synthesis. Adverse events were mild-to-moderate. Rivizor might be an effective and well-tolerated alternative treatment for postmenopausal advanced breast cancer patients following tamoxifen failure.