Review of the pharmacological properties of toremifene

Journal of steroid biochemistry Pub Date : 1990-06-22 DOI:10.1016/0022-4731(90)90003-B

Lauri Kangas

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引用次数: 72

Abstract

New compounds were synthesized with the aim to develop new anti-estrogenic antitumor drugs. The biological properties of the molecules were screened by (1) estrogen receptor (ER) binding, (2) effect on MCF-7 cells, (3) uterotrophic effect and inhibition of estradiol induced uterotropic effect and (4) antitumor effect in DMBA induced rat mammary cancer. One of the molecules, Fc-1157a = toremifene, exhibited the following characteristics: competitive inhibition of [³H]estradiol binding to ER (IC₅₀ = 0.3 μmol/l), inhibition of MCF-7 cell growth in a concentration-dependent manner and cell-killing effect at higher than 3 μmol/l concentrations. Minimal estrogenic dose of toremifene on rat uterus weight was about 40 times higher than that of tamoxifen. Toremifene had statistically significant effect against DMBA-induced rat mammary cancer. Further screening consisted of antitumor, pharmacokinetic and safety studies. Toremifene inhibited the growth of ER-negative, glucocorticoid sensitive, mouse uterine sarcoma in a dose-dependent manner. Pharmacokinetics and metabolism of toremifene resembled closely those of tamoxifen, but since the chlorine atom of the toremifene molecule was not metabolically cleaved tamoxifen and toremifene did not have chemically similar metabolites. Toremifene was well tolerated in animal toxicity studies. No hyperplastic or neoplastic nodules, which were seen in almost all high-dose (48 mg/kg for 24 weeks) tamoxifen-treated rats, were found in toremifene-treated rats (dose 48 mg/kg). In clinical phase I studies in healthy voluntary postmenopausal women, no side effects were reported, at doses ⩽ 460 mg, neither after a single dose nor after five daily doses. At the dose of 680 mg two out of five persons experienced vertigo and headache. Toremifene, at the dose of 68 mg daily, had antiestrogenic effect on estradiol-induccd human vaginal epithelial cells. Clinical phase II studies have confirmed that toremifene has a promising antitumor effect.

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托雷米芬的药理学性质综述

新化合物的合成旨在开发新的抗雌激素抗肿瘤药物。通过(1)雌激素受体(ER)结合，(2)对MCF-7细胞的影响，(3)子宫收缩效应和抑制雌二醇诱导的子宫收缩效应，(4)对DMBA诱导的大鼠乳腺癌的抗肿瘤作用来筛选分子的生物学特性。其中一种分子Fc-1157a = toremifene表现出以下特征:竞争性抑制[3H]雌二醇与ER的结合(IC50 = 0.3 μmol/l)，抑制MCF-7细胞生长呈浓度依赖性，浓度高于3 μmol/l时具有细胞杀伤作用。托瑞米芬对大鼠子宫重量的最小雌激素剂量约为他莫西芬的40倍。托瑞米芬对dmba诱导的大鼠乳腺癌有统计学意义。进一步的筛选包括抗肿瘤、药代动力学和安全性研究。托瑞米芬抑制er阴性、糖皮质激素敏感的小鼠子宫肉瘤呈剂量依赖性。托瑞米芬的药代动力学和代谢与他莫昔芬非常相似，但由于托瑞米芬分子的氯原子没有代谢裂解，他莫昔芬和托瑞米芬没有化学上相似的代谢物。在动物毒性研究中，托雷米芬耐受性良好。在几乎所有高剂量(48 mg/kg，连续24周)他莫昔芬治疗的大鼠中，没有发现增生性或肿瘤性结节，而在48 mg/kg剂量的托瑞米芬治疗的大鼠中则没有发现。在健康自愿绝经后妇女的临床I期研究中，剂量≤460 mg，无论是单次剂量还是每日5次剂量，均未报告副作用。在680毫克的剂量下，五分之二的人出现眩晕和头痛。每日68毫克的托瑞米芬对雌二醇诱导的人阴道上皮细胞有抗雌激素作用。临床II期研究证实，托瑞米芬具有良好的抗肿瘤作用。

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Journal of steroid biochemistry

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