Schoonen W G, Deckers G, de Gooijer M E, de Ries R, Mathijssen-Mommers G, Hamersma H, Kloosterboer H J
Research and Development, N.V. Organon, PO Box 20, 5340 BH, Oss, The Netherlands.
J Steroid Biochem Mol Biol. 2000 Oct;74(3):109-23. doi: 10.1016/s0960-0760(00)00094-7.
Norethisterone (NET) is a 19-nortestosterone derivative with progestagenic and some androgenic activity, which was used in the first generation of contraceptives. NET was succeeded by levonorgestrel (LNG) and later on by desogestrel (DSG) and gestodene (GSD). Although these latter two progestins had increased potency, there was still androgenicity with gestodene and to a lesser extent with desogestrel. New progestins were synthesized in order to further enhance progestagenic and to reduce androgenic activity. Four different chemical moieties were introduced in position 17 of 19-nortestosterone, viz. 17alpha-ethynyl, five- and six-membered spiromethylene ethers, and a six-membered-spiromethylene lactone. In combination with these structures seven different substituents were added at position 11, i.e. methylene, methyl, ethyl, ethenyl, ethynyl, 2-propenyl and 1-propynyl. All substituents except for methylene occupied the 11beta-position. All these 32 compounds were synthesized and analysed in vitro and in vivo against etonogestrel (ETG, 3-keto-desogestrel), the biologically active metabolite of desogestrel. Their relative binding potency to progesterone (PR), androgen (AR) and estrogen (ER) receptors were determined in cell lysates of human breast tumor MCF-7 cells and to glucocorticoid (GR) receptors in that of human leukemic IM-9 cells. Moreover, their relative agonistic activities were assessed in Chinese hamster ovary cell-based transactivation assays. All in vivo activities were determined in McPhail (progestagenic), ovulation inhibition (progestagenic and estrogenic), Hershberger (androgenic), hormone screening (glucocorticoid and estrogen) and Allen-Doisy (estrogenic) tests after oral and for the McPhail test also after subcutaneous administration. The progestagenic binding and transactivation potencies of all compounds in the three 17-spiro series were higher than those of the corresponding analogues in the 17alpha-ethynyl series. None of the compounds showed estrogenic or clear androgenic binding and transactivation potential except for a six-membered-spiromethylene lactone with a propynyl group. This compound showed strong androgenic binding. The glucocorticoid binding and transactivation were very low for the compounds with the 17alpha-ethynyl and the five-membered-spiromethylene ether groups, whereas both six-membered-spiro series showed, clearly with methyl and ethynyl substituents, and less pronounced with methylene and ethenyl, higher binding and transactivation values. For the 17alpha-ethynyl series, the McPhail test showed high potencies with methylene, methyl and ethenyl substituents after oral treatment or with propenyl after subcutaneous administration. The introduction of the spiro substituents in position 17 led to high potencies for other 11-substituents as well. Besides methyl, also ethyl, ethynyl and propynyl were potent substituents. With ovulation inhibition tests, the ethyl, ethenyl and ethynyl substituents were the more potent compounds in all four series. However, compounds with methyl or ethynyl additions appeared to be glucocorticoidal in the hormone screening test irrespective of the 17-substituent, while with the three spiro series even methylene and ethenyl groups became active. Androgenicity was only observed at dose levels at or above 5 mg/kg, which is 2.5-fold weaker than ETG. Moreover, estrogenicity appeared negligible with the three spiro series, while with the 17alpha-ethynyl series methyl, ethyl, ethenyl and ethynyl substituents, a very high estrogenic potential was assessed. Based on the high efficacy and low side-effects, the following compounds show a high selectivity: 17alpha-ethynyl with ethyl, ethenyl and 2-propenyl substituents, six-membered spiromethylene ether with ethyl and six-membered-spiromethylene lactone with ethyl, 2-propenyl or 1-propynyl substituents. (ABSTRACT TRUNCATED)
炔诺酮(NET)是一种具有孕激素活性和一定雄激素活性的19-去甲睾酮衍生物,曾用于第一代避孕药。随后炔诺酮被左炔诺孕酮(LNG)取代,后来又被去氧孕烯(DSG)和孕二烯酮(GSD)取代。尽管后两种孕激素活性增强,但孕二烯酮仍有雄激素性,去氧孕烯的雄激素性稍弱。为了进一步增强孕激素活性并降低雄激素活性,人们合成了新的孕激素。在19-去甲睾酮的17位引入了四种不同的化学基团,即17α-乙炔基、五元及六元螺亚甲基醚和六元螺亚甲基内酯。结合这些结构,在11位添加了七种不同的取代基,即亚甲基、甲基、乙基、乙烯基、乙炔基、2-丙烯基和1-丙炔基。除亚甲基外,所有取代基都占据11β位。合成了所有这32种化合物,并针对去氧孕烯的生物活性代谢物依托孕烯(ETG,3-酮-去氧孕烯)进行了体外和体内分析。在人乳腺肿瘤MCF-7细胞的细胞裂解物中测定了它们与孕酮(PR)、雄激素(AR)和雌激素(ER)受体的相对结合亲和力,在人白血病IM-9细胞的细胞裂解物中测定了它们与糖皮质激素(GR)受体的相对结合亲和力。此外,在中国仓鼠卵巢细胞为基础的反式激活试验中评估了它们的相对激动活性。所有体内活性在口服给药后通过麦菲尔(孕激素活性)、排卵抑制(孕激素和雌激素活性)、赫什伯格(雄激素活性)、激素筛选(糖皮质激素和雌激素活性)和艾伦-多伊西(雌激素活性)试验测定,麦菲尔试验也在皮下给药后进行。三个17-螺系列中所有化合物的孕激素结合和反式激活效力均高于17α-乙炔基系列中的相应类似物。除了带有丙炔基的六元螺亚甲基内酯外,没有化合物表现出雌激素或明显的雄激素结合及反式激活潜力。该化合物表现出强烈的雄激素结合。带有17α-乙炔基和五元螺亚甲基醚基团的化合物的糖皮质激素结合和反式激活活性非常低,而两个六元螺系列,明显是带有甲基和乙炔基取代基的,带有亚甲基和乙烯基取代基的则不太明显,表现出更高的结合和反式激活值。对于17α-乙炔基系列,麦菲尔试验显示口服给药后带有亚甲基、甲基和乙烯基取代基的效力较高,皮下给药后带有丙烯基的效力较高。在17位引入螺取代基也导致其他11-取代基具有高效力。除甲基外,乙基、乙炔基和丙炔基也是高效取代基。在排卵抑制试验中,乙基、乙烯基和乙炔基取代基在所有四个系列中都是更有效的化合物。然而,在激素筛选试验中,无论17-取代基如何,添加甲基或乙炔基的化合物似乎都具有糖皮质激素活性,而对于三个螺系列,甚至亚甲基和乙烯基基团也变得有活性。仅在剂量水平达到或高于5mg/kg时观察到雄激素性,这比依托孕烯弱2.5倍。此外,三个螺系列的雌激素性似乎可以忽略不计,而对于17α-乙炔基系列,甲基、乙基、乙烯基和乙炔基取代基具有非常高的雌激素潜力。基于高疗效和低副作用,以下化合物表现出高选择性:带有乙基、乙烯基和2-丙烯基取代基的17α-乙炔基、带有乙基的六元螺亚甲基醚以及带有乙基-2-丙烯基或1-丙炔基取代基的六元螺亚甲基内酯。(摘要截断)
