DE1166189B - Process for the preparation of 3ª ‰ -fluoro-í¸-steroids - Google Patents

Description

Process for the preparation of 3fl-fluoro-45-steroids 3ß-fluoro-4 5-steroids have physiologically interesting properties and can be used as therapeutics in used in human medicine.

So far, these compounds could be made from 3ß-hydroxy-45-steroids only produce in a three-step process. T. N. J a c o b s e n and E. V. Jensen (Chemistry and Industry, Vol. 1957, p. 172) converted 3ß-hydroxy-d 5-steroids into the 3-tosylates and these into the 3-iodides, which then with silver fluoride into the 3-fluorides were converted. C. W. S h o p p e e and G. H. R. S u m e r s (J. chem. Soc. [London], Vol. 1957, p. 4813) also converted 3β-hydroxy-4 5-steroids into the 3-tosylates and these in the 3,5-cyclo-6-hydroxy-steroids, those with hydrogen fluoride to the 3-fluoro-4 5-steroids were converted.

It has now been found that 3β-hydroxy-A5-steroids can be used of manganese dioxide / hydrogen fluoride as a fluorinating agent in one reaction stage can convert into 3ß-fluoro-45-steroids.

The invention accordingly relates to a method of production of 3ß-fluoro-45-steroids by treatment of 3ß-hydroxy-A5-steroids with hydrogen fluoride and manganese dioxide in the presence of an inert solvent, the starting steroid may contain further C = C double bonds and / or substituents. The usage of manganese dioxide / hydrogen fluoride as a fluorinating agent is new.

Any present in the steroid molecule: non-activated hydroxyl groups are not attacked in the fluorination process according to the invention. aside from that it was found that under the given reaction conditions in the Steroidmclekül any hydroxyl groups that are present in the -x position to a keto group, z. B. in 21-hydroxy-20-keto steroids and in 17a-hydroxy-20-keto steroids, at most react in traces with the fluorination mixture used according to the invention. Consequently it is possible, even with 3 B-hydroxy-ds-steroids, which also contain other hydroxyl groups contain to carry out a fluorination selectively in the 3-position. Such a one selective fluorination of the hydroxyl group in the 3-position with the aid of manganese dioxide / hydrogen fluoride is surprising and could not be foreseen, especially because of what is known in the literature Fluorinating agent Manganese (III) fluoride high-boiling hydrocarbons not selective fluorinated, but converted into perfluorinated compounds (R. D. Fow1er, H. C. Anden son, J. M. Hami1ton jr., W. B. Burford III, A. Spadetti, S. B. Bitter 1 i c h and J. L i t a n t, Ind. Eng. Chet >>., 39, p. 343 [1947]). In accordance with the procedure 3ß-Hydroxy-45-steroids can be used, which correspond to the most diverse steroid series, like the Steran-, 18- or 19-Nor-androstan-, Androstan-, Pregnan-, Ergostan-, Cholestan-, Bile acid or sapogenin series. These steroids can save in the 5 (6) position still further unsaturated and / or carry substituents, such as Alkyl, alkylidene, hydroxy, oxo, amino, halogen, cyano, mercapto or thio substituents. The substituents can optionally be present in a functionally modified form. Hydroxy, amino and mercapto groups can be alkylated or acylated. At Hydroxyl groups in two adjacent carbon atoms can be used as a cyclic acetal are present. Oxo and thio groups can be ketalized or as enol acylate, enol ethers or enamine are present. Acid-sensitive radicals such as the acetal group are used in the procedural reaction split, leaving the underlying group at liberty is set.

Suitable starting compounds are, for. B. 5-pregnen-3ß-ol-20-one, 5-pregnen-3ß, 17a-diol-20-one, dehydro-epiandrosterone, 5-androstene-3ß, 17ß-diol, 17x-methyl-5-androstene-3ß, 17ß-diol, 17x-methyl. 19-nor-5-androsten-3ß, 17ß-diol, 19-nor-5-androsten-3ß-ol-17-one, cholesterol.

The manganese dioxide used for the reaction can be found in the commercially available Shape, to be applied. Particularly favorable results are achieved if you are »active Brownstone used according to Attenburrowe (J. Attenburr ow, A. F. B. Cameron, 1-1, J. Chapman, R. M. Evans, B. A. Hems, A. B. A. Jansen and T. W a 1 k e r, J. chem. Soc. [London], vol. 1952, p. 1094). For the fluorination reaction can 1 to 50 moles of manganese dioxide are used per mole of steroid.

The hydrogen fluoride required for the reaction is used in an amount of 1 to 100 moles per mole of steroid.

Hydrocarbons can be used as the solvent for the reaction such as gasoline fractions, benzene, toluene, xylene and halogenated hydrocarbons, such as methylene chloride, chloroform, carbon tetrachloride, trichlorethylene, aliphatic or aromatic ethers such as diethyl ether, dioxane, tetrahydrofuran, aliphatic or aromatic nitro compounds such as nitromethane, nitrobenzene, alcohols such as Methanol, ethanol, isopropanol, hexanol or benzyl alcohol, and other inert solvents, like acetonitrile. Mixtures of these solvents can also be used, optionally with the addition of water.

The fluorination according to the invention is advantageous between -80 and + 100 ° C, preferably between -30 and -150'C. The response times are between 30 minutes and several days. It is recommended that the reaction mixture to shake or stir.

It is not necessary to be the reactant in a particular Order together. However, the hydrogen fluoride solution has proven particularly useful first add the manganese dioxide and only after a while the 3ß-hydroxy-45-steroid.

According to the method of the invention, for. B. the following compounds are prepared: The 3ß-fluoro-A prepared by the process of the invention 5-steroids are said to be used as pharmaceuticals in human medicine. The connections partly show anabolic, sedative, diuretic, antihypertensive and antihormonal Effectiveness.

Example l 3β-Fluoro-5-pregnen-20-one To a solution of 42 g of anhydrous Hydrofluoric acid in 150 cc of methylene chloride is added in portions at -20 ° C. with stirring 33 g manganese dioxide according to A t t e n b u r o w and let react for 10 minutes. then 15 g of 5-pregnen-3β-ol-20-one, dissolved in 300 cc of methylene chloride, are added. The mixture is then stirred at -20 ° C. for 4 hours. Then you drip the Pour the reaction mixture into a mixture of aqueous sodium hydrogen carbonate solution with vigorous stirring and chloroform and works with chloroform in the usual way. The raw product is chromatographed in benzene on 350 g of silica gel. The one in the thin-layer chromatogram uniform berizol fractions (after about 300 ccm forerun in about 0.71) united and withdrawn. The residue is crystallized first from ether, then from acetone. Melting point of the 3β-fluoro-5-pregnen-20-one thus obtained: 163 to 164 ° C, [i] δ = + 14 ° (chloroform). Yield: 50%.

Example 2 3ß-Fluor-5-androsten-17-orr To a solution of 14g of anhydrous Hydrofluoric acid in 50 cc of methylene chloride is added in portions at -20 ° C. with stirring 11 g manganese dioxide according to A t t e n b u r o w and let react for 10 minutes. then 5 g of dehydro-epiandrosterone in 100 cc of methylene chloride are added and the mixture is stirred for 3 Hours at 0 ° C. After working up as in Example 1, the crude product becomes aluminum oxide chromatographed. The 3ß-fluoro-5-androsten-17-one eluted with benzene is converted from ethyl acetate recrystallized. Mp. 153 to 154 ° C, [cx] = -19 ° (chloroform). Yield: 52 ° / 0.

Example 3 3β-Fluoro-5-androsten-17β-ol A mixture of 14 g of anhydrous hydrofluoric acid, 11 g of A ttenburrow's manganese dioxide and 5 g of 5-androstene-3β, 17β-diol in 50 cc of methylene chloride is overnight at -5 ° C shaken and then worked up as in the example. It is chromatographed on aluminum oxide and eluted with benzene-chloroform mixtures the 3ß-fluoro-5-androsten-17ß-ol, which melts after recrystallization from acetone at 160 to 161 ° C; [.x] ö` _ -60 ° (chloroform). Yield: 44 "/ ,.

EXAMPLE 4 3β-Fluoro-5-cholesterol A solution of 14 g of anhydrous hydrofluoric acid in 150 cc of methylene chloride, 11 g of manganese dioxide according to A tte nburrow and 7 g of cholesterol is placed in a pressure vessel which is resistant to hydrofluoric acid, and it is closed and gradually warmed to + 50 ° C. while shaking . After this temperature has been maintained for 30 minutes, the mixture is cooled to -20 ° C., the autoclave is opened and the process is carried out as in Example 1. The crude product is chromatographed on aluminum oxide, activity level II. The petroleum ether eluates are recrystallized from acetone. Melting point of the 3β-fluoro-5-cholest obtained in this way: 94 to 95 ° C, [1] δ = -46 ° (chloroform). Yield: 600 / ,.

Example s Analogously to Example 1, 15 g of 5-pregnen-3β, 17, x-diol-20-one-17-acetate are used converted to 3ß-fluoro-5-pregnen-l7a-ol-20-one-17-acetate. Mp 193 ° C, [a] -80 ° (chloroform). Yield: 510 / ,.

In an analogous manner, 12.5 g of 5-pregnen-3β, 17x-dio1-20-one become the 3 f3-fluorine-5-pregnen-17 t-o1-20-one produced. Yield: 47 °; o.

Claims (3)

Claims: 1. Process for the preparation of 3ß-fluoro-45-steroids, thereby characterized in that one is a 3ß-hydroxy-_is-steroid with hydrogen fluoride and manganese dioxide treated in the presence of an inert solvent. 2. The method according to claim 1, characterized in that the starting material is a steroid of the Pregnan or Androstane series used. 3. The method according to claim 1 and 2, characterized in that that a chlorinated hydrocarbon is used as the solvent.