The benzothiophene anti-estrogen, raloxifene [LY156758; (6-hydroxy-2-(4-hydroxyphenyl) benzo(b)thien-3-yl)(4-(2-1-piperidinyl)ethoxy)phenyl methanone hydrochloride] has selective estrogen pharmacological antagonist activity in female rats. The present studies were done in the male rat to assess activity of raloxifene related to inhibition of prostatic growth and effects on the hypothalamic-pituitary-gonadal axis. Raloxifene did not compete for binding of the androgen, [3H]-methyltrienolone (R1881) in cytosolic extracts of ventral prostate. Similarly, the compound did not inhibit prostatic 5 alpha-reductase or testicular 17 alpha-hydroxy/C17,20-lyase activities. Raloxifene had no effect on the ventral prostatic uptake of [3H]-R1881 in vivo. Administration of estradiol to castrated male rats stimulated fourfold increases of in vitro ventral prostatic binding of [3H]-R1881. Raloxifene was devoid of agonist activity in castrated animals, because the compound had no stimulatory effect on prostatic androgen receptor binding activity. When raloxifene was coadministered with estradiol, the compound markedly antagonized the estrogen-induced increase of prostatic [3H]-R1881 binding, confirming its antiestrogenic properties in male rats. Serum prolactin was also elevated significantly (P < 0.05) with a single injection of raloxifene (20.0 mg/kg). In these same animals, serum FSH was significantly (P < 0.05) decreased by one dose (10.0 mg/kg) of the compound. Luteinizing hormone levels in castrated male rats were unaffected by raloxifene administration. Raloxifene treatment of castrated males significantly (P < 0.05) antagonized the stimulatory response of the ventral prostate (VP) to exogenous androgens in a dose-dependent manner. Raloxifene treatment of intact male rats for 14 and 28 days produced significant (P < 0.05) dose-dependent regression of the VP and seminal vesicles (SV). The VP regressive responses to raloxifene were associated with a decline in serum testosterone levels. Histological analysis of the VPs in raloxifene-treated rats was consistent with an androgen-deprived state. These findings support the contention that raloxifene is a pure estrogen antagonist and a physiological antagonist of androgen action in male rats. These pharmacological properties provide support for further structure-activity and mechanistic investigations with benzothiophenes in the medical management of prostatic neoplasia.
The PAIII rodent metastatic prostatic adenocarcinoma model was employed to evaluate the effects of dietary warfarin, a prototypic antagonist of thrombin generation on the lymphatic and pulmonary metastases of the tumor from the tail site of subcutaneous transplantation in male Lobund Wistar (LW) rats. In addition, the anticoagulant effects of warfarin were determined in the same animals. Warfarin, administered in the diet at concentrations equivalent to 0.063, 0.125 or 0.250 mg./kg. b.w. for 30 days had no effect on final body weight, gluteal or iliac lymph node weights. Significant (p less than 0.05) dose-dependent extensions of whole blood prothrombin (WBPT), activated partial thromboplastin (WBAPTT) and clotting times (WBCT) over control values were observed with warfarin treatment. Preliminary studies demonstrated that the 0.500 mg./kg. dose produced 50 per cent mortality at +14 days. Warfarin produced significant (p less than 0.05) dose-dependent decreases in the number of PAIII pulmonary metastases as indicated by reductions in dry lung weights and lung colony numbers when compared to untreated tumor-bearing controls. While the therapeutic index of warfarin is a limiting factor in clinical use as an antimetastatic agent, these results suggest that compounds capable of altering hemostatic mechanisms may be potential inhibitors of tumor metastasis. The PAIII prostatic adenocarcinoma model may be a useful system to quantitatively evaluate potential antimetastatic and cytotoxic agents.
LY207320 is an in vitro inhibitor (estimated IC50 = 0.06 microM) of steroid 5 alpha-reductase that catalyzes the conversion of testosterone (T) to dihydrotestosterone (DHT). In contrast, LY207320 was only moderately active against rat prostatic 5 alpha-reductase in vivo (32% inhibition at 50.0 mg/kg single dose). LY207320 did, however, inhibit the in vivo uptake of [3H]-T by the prostate. The antiprostatic and endocrine effects of this agent were evaluated following daily (21 days) administration to castrated, androgen-supplemented castrate, and intact rats. LY207320, which has modest progestational competitive binding activity, does not bind to rat prostatic androgen or uterine estrogen cytosolic receptors. In the castrated male rat, subcutaneously (s.c.) administered LY207320 had no androgen agonist activity, as evidenced by a lack of accessory sex organ weight gains. Administration of s.c. LY207320 to intact rats for 21 days at doses greater than 5.0 mg/kg-day produced significant (P < 0.05) reductions of seminal vesicle and ventral prostatic weights (maximal regression = -65% and -40% from control values, respectively at 50.0 mg/kg-day). The compound had no regressive activity on male accessory sex organs when administered orally. LY207320 did not alter circulating prolactin, LH, or corticosterone levels, but at high doses (> or = 50.0 mg/kg-day), lowered circulating T[-67% from intact control levels (P < 0.05)]. Histological analysis of the rat ventral prostates (RVPs) in LY207320-treated rats was consistent with an androgen-deprived state. Decreased circulating androgens and prostatic regression are associated with inhibition of testicular 17 alpha-hydroxy/C17,20-lyase enzyme activity (IC50 = 0.06 microM). These findings support the contention that LY207320 is a physiological antagonist of androgen action in male rats, and that its effects are mediated primarily through inhibition of testicular androgen production rather than accessory sex organ 5 alpha-reductase.
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