11 beta-amidoalkyl estradiols, a new series of pure antiestrogens.

In order to find new antiestrogens, devoid of any agonistic activity, a series of 11 beta-amidoalkyl estradiols were prepared. These compounds have been studied in comparison with tamoxifen (TAM): in vitro, for their relative binding affinities (RBA) for mouse and MCF-7 estrogen receptors (ER) and for their antiproliferative effect on MCF-7 (estradiol or EGF/PDGF stimulated) and Ly2 human breast cancer cell lines; in vivo, for their uterotrophic/antiuterotrophic activities in the mouse and for their antitumoral activities on MCF-7 tumors implanted in nude mice. The most representative compounds are N-methyl-N-isopropyl-(3,17 beta-dihydroxy-estra-1,3,5(10)-trien-11 beta-yl)- undecanamide (RU 51625) and its 17 alpha-ethynyl derivative (RU 53637). They showed good RBAs for ER and a stronger antiproliferative effect than TAM in vitro. Unlike TAM, these compounds inhibited growth factor stimulated MCF-7 proliferation, and the growth of the TAM resistant cell line Ly2. In vivo, they were completely devoid of uterotrophic activity, when given subcutaneously in mice, but exhibited a slight agonistic effect when administered orally. They showed interesting antitumor activities in nude mice by the percutaneous route, but RU 53637 was significantly more potent than RU 51625 when given orally.

New analogues of mifepristone with more dissociated antiprogesterone activities.

Mifepristone (RU 486 or RU 38486) possesses strong antiprogesterone and antiglucocorticoid along with moderate antiandrogen properties, which would limit its use in some therapeutic applications. In a search for more dissociated derivatives, the hydroxy substituent and the propynyl group in position 17 of the RU 486 series was replaced by a spiroether group, which is known to induce specific affinity for the progestin receptor in steroid series. The substituents in the para position of the 11 beta-phenyl group, leading to the most potent derivatives in the RU 486 series, were retained. The new derivatives have been studied in vitro for their relative binding affinities (RBAs) for the steroid receptor and in vivo for their hormonal and antihormonal activities. The selected compounds, RU 46556 and RU 49295 display the following properties: in vitro, like RU 486, they show a strong RBA for the rabbit progestin receptor, but a much lower one for the rat thymus glucocorticoid receptor; in vivo they are about three times more active than RU 486 for inducing abortion in rats, but unlike the latter they are devoid of any antiglucocorticoid activity on the thymus weight in rats. These antiprogesterone effects have been confirmed on the deciduoma formation in rats and on the endometrial proliferation in rabbits. However, in contrast to RU 486 in the latter test, some progestomimetic activity has been observed. RU 46556 and RU 49295 are now under extensive pharmacological study.

Synthesis of new fluorescent spirolactone derivatives: determination of their affinities for aldosterone receptors.

Fluorescent spirolactone derivatives are obtained by coupling 3-carboxylic coumarins to a spirolactone bearing a 3-hydroxypropyl chain in the 7 alpha position. The two esters prepared by this method are highly fluorescent (emission 383 and 408 nm).

Antiandrogenic activity of a series of des-A-steroid derivatives.

In the search for new antiandrogens, a number of des-A-steroids were prepared by condensation of Grignard reagents with lactone 3. From the resulting key intermediates 5, various structural modifications were performed such as the introduction of an additional unsaturation to afford dienones 8 and aromatic derivatives 10 or the introduction of an alkyl substituent mostly in position 10 (11-13) but also in some cases in position 16 (22). In addition, 13-ethyl analogues were also prepared from lactone 4. The relative binding affinities (RBAs) for the androgen receptor of these compounds were determined under various conditions. Some compounds exhibit a capacity to interact with the receptor comparable to that of testosterone. One of the most potent compounds is 17beta-hydroxy-des-A-androsta-9,11-dien-5-one (8b), RBA value 73% of that of testosterone. More interestingly, several compounds were found to have an antiandrogenic profile in vitro and in vivo. One of the most effective compounds is 10-ethyl-17beta-hydroxy-des-A-estra-9-en-5-one (5c), which exhibits a strong local antiandrogenic activity in hamsters, without any significant systemic antiandrogenic effects. The corresponding 17beta-acetyl derivative (RU 38882) has been selected for extended pharmacological studies.

Synthesis and central dopaminergic activities of (+/-)-hexahydro-7H-indolo[3,4-gh][1,4]benzoxazine derivatives [(+/-)-9-oxaergolines].

The synthesis and biological activities of a series of (+/-)-hexahydro-7H-indolo[3,4-gh][1,4]benzoxazine derivatives [(+/-)-trans-9-oxaergolines] with central dopamine (DA) agonist properties are described. The compounds were prepared from [2aRS-(2a alpha,4 beta,5 alpha)]-4-amino-1,2,2a,3,4, 5-hexahydro-1-(phenylmethyl)benz[cd]indol-5-ol (6b) by alkaline cyclization of the corresponding N-chloracetamide 7b, followed by reduction of the amido group [5aRS-(5a alpha, 6a beta, 10a alpha)]-4,5,5a,6,6a,7,9, 10a-octahydro-4-(phenylmethyl)-7H-indolo[3,4-gh][1,4]benzoxazin-8-one (8b) with LiAlH4. After debenzylation of the resulting amine 9a, the indoline ring of [5aRS-(5a alpha, 6a beta, 10a alpha)]-4,5,5a,6,6a,8,9, 10a-octahydro-7H-indolo[3,4-gh][1,4 ]benzoxazine (10a) was dehydrogenated with MnO2 to give (+/-)-trans-9-oxaergoline (11a), which can be alkylated on the nitrogen (11b,c and 12) and brominated in position 2 (13a,b). The compounds were examined in vitro for their ability to bind to DA receptors and to inhibit prolactin (PRL) secretion in pituitary cells in culture, in vivo both for their DA stimulant effects at the striatal level (circling in 6-OHDA-lesioned animals, DA turnover, and stereotypy) and inhibitory effects on plasma PRL levels in rats, and for their emetic effects in dogs. Most of the tested compounds were active in these tests, and the potency of (+/-)-trans-6-n-propyl-9-oxaergoline (11c) was comparable to that of pergolide mesylate.