DE1002348B - Process for the manufacture of oxidized steroids - Google Patents

Description

Process for Making Oxidized Steroids The invention relates to an extremely advantageous method of making oxidized steroids, in particular of 11 a-oxysteroids, such as 3, 20-diketopregnenes and 3-oxy-20-ketopregnenes, the Intermediates for the production of adrenal cortex hormones and [or others represent valuable products.

The oxidation products obtained according to the invention, e.g. B. 11 a-oxyprogesterone, can e.g. B. both in the well-known 11-ketoprogesterone and in cortisone acetate be transferred. For example, 11 a-oxyprogesterone can also be used with palladium catalytically reduced in ethyl acetate to allopregnan-11 a-ol-3, 20-dione. That the latter can be reduced to allopregnan-3, 11 a, 20-triol with lithium aluminum hydride and treated with an acylating (acetylating) substance under mild conditions using the 3-acyl derivative (e.g. allopregnan-3, 11 a, 20-triol-3-acetate) receives. This in turn can with chromic acid to allopregnan-3-ol-11, 20-dione-3-acetate and by known methods (e.g. Rosenkranz, Pataki and Djerassi, Journ. Amer. Chem. Soc., Vol. 73, 1951, p. 4055) can be converted into cortisone acetate. This overpass in cortisone acetate can also, for. B. be done by allopregnan-3-ol-11, 20-dione-3-acetate with acetic anhydride and p-toluenesulfonic acid into 11, 20-dienol acetate of the allopregnan-3-ol-11, 20-dione-3-acetate transferred and then without isolation treated with an excess of perbenzoic acid in chloroform, whereupon with 2N sodium hydroxide solution saponified to form allopregnan-3, 17a-diol-11, 20-dione. The latter will brominated in chloroform to form 21-bromo-allopregnan-3, 17a-diol-11, 20-dione, and this is treated with sodium iodide in acetone and then with potassium acetate, where allopregnan-3, 17a, 21-triol-11, 20-dione-21-acetate (Reichstein's compound D) receives. This is with N-bromoacetamide to form allopregnan-3, 11, 20-trione-17a, 21-diol-21-acetate is oxidized, this is brominated and without isolation with sodium iodide treated, whereby 2-iodine-4-pregner_-17a, 21-diol-3, 11, 20-trione-21-acetate is obtained. The latter is formed with the formation of cortisone acetate with zinc dust in dioxane and ethanol treated.

4-Pregnen-11a, 17a, 21-triol-3, 20-dione can be used both in the well-known Adrenosterone as well as z. B. convert into cortisone acetate; 4-pregnen-11 a, 21-diol-3, 20-dione can be converted into the well-known dehydrocorticosterone acetate; 11a, 17a-dioxyprogesterone can be converted into the well-known 4-pregnen-17a-ol-3, 11, 20-trione.

It is known per se, steroids microbiologically, including in the 11 a-position to be hydroxylated. However, were of the invention used various microorganisms belonging to other classes. So was z. B. already progesterone with Rhizopus arrhizus from the class of the Phycomycetes oxidized to form the derivative hydroxylated in the 11 a-position.

It has been found that oxidized steroids, in particular l 1 a-oxysteroids, by treating deoxysteroids, especially 11-deoxysteroids, with cultures of an oxidizing fungus species of the Aspergillus strain or those thereof produce available oxidizing enzymes in the presence of oxygen can. Aspergillus belongs to the family Aspergilaceae or Fungi imperfecti, so has with the. As is well known, microorganisms have nothing in common, except that both are mushrooms. The behavior of Aspergillus in relation to the 11-deoxysteroids was therefore completely unexpected. The enzymes can act either by that the steroid, oxygen and enzymes of not in an aqueous medium brings together more proliferating cells of the Aspergillus, or preferably thereby, that the steroid is placed in an aerated culture of the Aspergillus.

The oxidizing Aspergillus species to be used according to the invention include Aspergillus niger, Aspergillus amstelodami, Aspergillus nidulans and Aspergillus species ATCC 11267 (this number is the identifier of : Microorganism given to him by the American Type Culture Collection, Washington D. C., was given). It is advisable to use a strain of Aspergillus niger, as vWisc. (Wisconsin) 72-2a, or its equivalent. Behaviour this strain is described by Perlman, Kita & Peterson in Arch. of Biochemistry, Vol. 11, 1946, p. 123.

In general, the conditions for growing Aspergillus are for the purposes according to the invention (except for the introduction of the steroid to be oxidized) the same as when cultivating such microorganisms to produce others Metabolic products, e.g. B. citric acid. The Aspergillus niger grows up a suitable nutrient medium under aerobic conditions. A suitable nutrient medium consists essentially of a nitrogen supplying and assimilable carbon and energizing substance. The latter can be a carbohydrate, e.g. B. sucrose, Molasses, glucose, starch, maltose or dextrin and / or the steroid itself. However, in addition to the steroid, the medium expediently contains an assimilable carbon and energizing substance. The latter consists at least in part of fatty acids with at least 14 carbon atoms or fats. The use of such a fatty substance as a source for the carbon and the energy (especially the use of a fatty oil) is beneficial in that it increases the ability of the steroid to form favored by derivatives. Fats to be used according to the invention include liquid lard, soy, flaxseed oil, cottonseed oil, peanut oil, coconut oil, Wheat oil, castor oil, sesame oil, raw palm oil, mutton tallow, sperm oil, olive oil, tristearin, Tripalmitin, triolein, trilaurin. Fatty acids to be used according to the invention include stearic acid, palmitic acid, oleic acid, linolenic acid and myristic acid.

The nitrogen supplier can be of natural origin (e.g. soybean meal, Wheat leach liquor, meat extract and / or soluble distillery products) , or synthetic (i.e. the nitrogen source can be from simple synthetizable organic and inorganic compounds such as ammonium salts, alkali nitrates, Amino acids or urea).

The steroids which can be converted into suitable oxidation products according to the invention include those of the 3-oxo- (or -oxy) -20-ketopregnen (or -pregnan) series and those of the 3-oxo (or - Oxy) -17-keto (or -oxy) -androsten- (or -androstane) series. Preference is given to those unsaturated in the 4-position; Pregnen-3, 20-dione used, in particular progesterone and 11-deoxy-17-oxycorticosterone or its acetate. Examples of these steroids are furthermore 16a-oxyprogesterone, 17a-oxyprogesterone, 11-deoxy-17-oxycorticosterone (Reichstein's compound S), 11-des-; oxy-17-oxycorticosterone acetate, deoxycorticosterone, deoxycorticosterone acetate, pregnanolone, 5-pregnenolone, 5-pregnen-3-ol-20-one-3-succinate, 4-androsten-3, 17-dione, 16-dehydroprogesterone and testosterone. If the steroid contains an oxidizable oxy group and its oxy-E dation is not desired, the oxy group can be converted into an oxidation-resistant group, which can, however, be converted back into an oxy group, ie the oxy group is esterified or etherified or by a halogen replaced. E The following examples explain the process according to the invention. All melting points are given in degrees Celsius and all specific rotation values were obtained in chloroform unless otherwise specified. Example 1 a) Fermentation. A medium of the following composition is prepared Solid from a leaching of Wheat obtained liquid ....... 3.0 g N H4 H2 P 04. . . . . . . . . . . . . . . . . . . . . . . . . 3.0 g CAC0 .............................. 2.5 g Soybean oil ........................ 2.29 Progesterone ......................... 0.20 g, made up to 1 liter of water with distilled water.

The pH of the medium is adjusted to 7 ± 0.1 with sodium hydroxide solution, whereupon 100 cc of the medium are distributed in 500 cc Erlenmeyer flasks. The flasks are closed with wadding plugs and sterilized for 30 minutes at 120 ° in a sterilizer. After cooling, each flask is filled with 5 to 10% of a vegetable inoculum obtained as described below from Aspergillus niger (Wisc. 72-2, cf. Perlman, Kita and Peterson, Arch. Of Biochemistry, Vol. 1I, 1946, p.123 , also DA Kita, University of Wisconsin Bachelor of Science thesis, 1944). The flasks are mechanically shaken for 72 hours in a room kept at 25 °. The contents of the bottles are then combined, adjusted to a pH value of 4 ± 0.2 with sulfuric acid and filtered off with suction through a Seitz filter. The vegetable inoculum used is grown on stock cultures of lyophilized agar slants for 24 to 72 hours (optionally with repetition of these 24 to 72 hour periods) in a medium of the following composition: 15 g solids from the leaching liquid of wheat, 10 g brown sugar , 6 g Na N 03, 0.001 g Zn S O4, 15 g anhydrous K H2 P 04, 0.5 g Mg S 04 - 7 H, 0.5 g Ca C 03, 2 g liquid pork fat, with distilled water to 11 filled up. The whole was sterilized in an autoclave at 120 ° for 30 minutes.

b) Extraction of the oxidation products. 1880 cc of one as obtained in a) Culture filtrate are extracted four times with 11 chloroform each time, whereupon the combined Chloroform extract is filtered and evaporated to dryness in vacuo. The residue is taken up in 15 cc of 80% aqueous methanol, and the resulting solution is extracted four times with 15 cc hexane each time to remove grease-like impurities. The methanol solution is then concentrated to a small volume and used three times extracted 20 ccm of chloroform each time. The combined chloroform extract is dried over sodium sulfate dried and then evaporated to dryness, leaving about 411 mg of a residue which crystallizes on standing.

c) Separation of constituents I and II. The constituents identified as I and II are dissolved in hot acetone, whereupon they are allowed to crystallize. Component I (a dioxyprogesterone) is sparingly soluble in acetone and therefore falls out of solution, while component II (11-oxyprogesterone) remains in the mother liquor. After four recrystallization by dissolving the crystalline residue in hot acetone and crystallization, the mother liquor being kept in each case, component I is obtained in a yield of about 8 mg in essentially pure form. After recrystallization from 95% ethyl alcohol, component I has the following properties: melting point about 250 to 253 ° (capillary); [a] = - I-100 ° (c = 0.28); Ultraviolet absorption: 7, nax (Alcohol) = 236 m # t (c = 15,000), infrared absorption: @ .max (Nujol; paraffin oil) = 2.98, cc (OH), 589 lt (20-ketone) and 6.04, g (d 4-3-ketone). Analysis for C21 Hg " 04 Calculated .... C = 72.80, H = 8.73; found ...... C = 72.66, H = 8.75. These data indicate that component I is a dioxyprogesterone, and that is likely 6,11α-dioxyprogesterone. Oxidation with chromic acid gives a tetraketone and acetylation gives a diacetate. After two recrystallizations from acetone-hexane, the oxidation product obtained (a tetraketone) has the following properties: melting point about 144 to 146 °; [a] = -I- 143 ° (c = 0.87), ultraviolet absorption: Ama.x (alcohol) = 249 m # t (a = 11500) @ max (2 "/" KOH in methanol) = 255 m # L (e = 9800), 370 m # t (e = 8900).

Analysis for C "H" 04: Calculated .... C = 73.66, H = 7.65; found ...... C = 73.77, H = 7.66. The above absorption spectrum is characteristic of 3,644-endiones, from which it follows that the one hydroxyl group of component I is in the 6-position. The contribution made by the second hydroxyl group in component I to the molecular rotation (d [M] D = -10 °) shows that this hydroxyl group is in the ll a position. This is also evident from the corresponding acetoxy group in the diacetate of I (-37 °) and from the keto group obtained therefrom by oxidation to give the above tetraketone (] -407 °). The contribution 4 [M] D of the 11 a-oxy- der 11 a-acetoxy and the 11-keto group is -16 ' or -51' or +302 'when attached to progesterone. The product obtained by acetylation and recrystallized from ethyl ether-hexane (a diacetate of the formula C25H340g) has the following properties: melting point about 154 ° to 155 °; [a] _ + 80.6 ° (c = 0.92).

analysis Calculated .... C = 69.74, H = 7.96; found ...... C = 69.74, H = 8.09. It follows from both that the newly introduced hydroxyl groups are secondary hydroxyl groups.

d) Isolation of 11 a-oxyprogesterone (component II). All of the mother liquor obtained during the crystallization of component I (see section c) is purified and dissolved in 2 cc of chloroform and 4 cc of benzene. The solution is chromatographed on a column of 6 g of alumina washed with sulfuric acid. The column is then eluted with 150 cc of a mixture of 1 part of chloroform and 2 parts of benzene. The solvents are evaporated in vacuo to give about 163 mg of crystals which are purified by recrystallization from acetone-ether. The 1 l of a-oxyprogesterone obtained has the following properties: melting point about 166 to 167 °, [a] = -f- 177.5 ° (c = 1.22); Ultraviolet absorption: Amax @ (alcohol) - 241 m # t (e = 17,000); Infrared absorption Am, (Nujol) = 2.91 (0 H), 585 #t (20-ketone) and 5.97 #L (d4-3-ketone).

Analysis for C21 H3 "03 Calculated .... C = 76.33, H = 9.16; found ...... C = 76.12, H = 9.28. The product obtained is not identical to the known 11 ß-oxyprogesterone, which melts at 187 to 188 °. It forms a monoacetate of the formula C23 H3204, which has the following properties. Melting point about 172 to 174 °; [a] + = 155 ° (c = 0.379). analysis Calculated .... C = 74.16; H = 8.66; found ...... C = 73.91, H = 8.50. It can also be oxidized to the known 11-ketoprogesterone, which after recrystallization from acetone-hexane or ether has the following properties: melting point about 170 to 171.5 ° (capillary); [a] = + 276 ° (c = 0.52 in acetone). Fuchs and Reichstein, Helv. Chim. Act., Vol. 23, 1940, p. 648 state that 11-ketoprogesterone melts at 173 to 175 ° (block) and an [a] = + 238.4 ° (acetone). A sample of 11-ketoprogesterone, which was prepared from corticosterone by the method of Fuchs and Reichstein, melted at 170.5 to 172 ° and had an [a] = - [- 221 ° (c = 0.51 in acetone). If this sample with is mixed with the 11-ketoprogesterone obtained as described above, the melting point is about 169 to 172.5 °. The ultra-red spectra of these 11-ketoprogesterones produced in different ways are identical in every respect. Example 2 A medium of the following composition is prepared: 3 g of wheat leach solids, 2 g of soybean oil, 3 g of NH 4 H2 PO 4, 0.15 g of 17-oxy-11-deoxycorticosterone acetate and distilled water enough to make a total of 1 1 receives. The p11 value of the medium is adjusted to 6 with sodium hydroxide solution. 50 cc portions of this medium are distributed in 250 cc Erlenmeyer flasks; the flasks are closed with cotton wool and sterilized in the usual way in a sterilizer. Upon cooling, each flask is inoculated with 2% of a vegetable inoculum of Aspergillus niger (Wisc. 72-2) grown for 72 hours on the same medium but without the steroid. The flasks are then placed on a shaker for 48 hours After germination, the contents of the bottles are combined and extracted three times with an equal volume of chloroform. The presence of an oxidation product of the steroid substrate in the chloroform extract is noticeable when examined using the filter paper chromatography method by Zaffaroni et al. Vol. III, p. 6, 1950, toluene-propylene glycol system) The oxidation products have the same or similar migration speed as hydrocortisone Example 3 Under the same fermentation conditions as under a) of Example 1, with the exception that the progesterone content of the medium is 0.5 per liter and the inoculum is Aspergillus species AT CC 11267 , and using Using the same extraction, separation and isolation process as described under b) ff. of Example 1, 6.1 l of a-dioxyprogesterone and 11 a-oxyprogesterone are obtained in the same yield and of the same degree of purity.

Example 4 a) Fermentation. The same fermentation conditions as under a) of Example 1 are used, with the exception that 0.50 g / 1 of 11-deoxy-17-oxycorticosterone (Reichstein's compound S) is added instead of progesterone. b) Extraction and separation of oxidation products. 3100 ccm of the culture filtrate obtained under a) by fermentation of 1.75 g of compound S are extracted five times with 1.5 l of chloroform each time; the combined chloroform extract is filtered and evaporated to dryness in vacuo, the temperature of the liquid which distills over not exceeding 40 °. The semicrystalline residue (about 1 g) is suspended in 20 cc of warm chloroform and the crystalline precipitate (about 424 mg) is filtered off. The product obtained in the recrystallization (4-pregnen-11a, 17a, 21-triol-3, 20-dione) has the following properties: prismatic needles, melting point about 216 to 219 °; [a] = -f- 117 ° (c = 0.46 in absolute alcohol); @, max (alcohol) = 242 m # t (E = 15,000).

Analysis for C21H3.05: Calculated .... C = 69.50, H = 8.34; found ...... C = 69.46, H = 8.39. Monoacetate, prisms with the following properties: melting point about 205.5 to 208 °; [a] _ + 117 ° (c = 0.84).

Analysis for C "H3407:, Calculated .... C = 67.25, H = 7.68, found ...... C = 67.34, H = 7.67. By oxidation, 4-pregnen-11a, 17a, 21-triol-3, 20-dione can be converted into adrenosterone, which after two recrystallization from alcohol has the following properties: melting point about 221 to 225 °; [a] = -E- 284 ° (c = 0.51).

Analysis for C19 H24 03 Calculated .... C = 75.97, H = 8.05; found ...... C = 75.71, H = 7.97. The adrenosterone obtained is indistinguishable from an authentic sample of 4-androstene-3, 11, 17-trione (adrenosterone), which was obtained by oxidation of cortisone with chromic acid, with regard to the melting point (no melting point depression when mixing ), the specific rotation and the ultrared spectrum.

Furthermore, 4-pregnen-11a, 17a, 21-triol-3, 20-dione can be acetylated to cortisone acetate and dehydrogenated; the crystals obtained melt after two recrystallization from acetone at 243 to 244 °, the crystals becoming opaque at 85 to 90 ° and no melting point depression when mixed with an authentic sample of, melting at 242 to 244 ° and becoming opaque at 84 to 95 ° Show cortisone acetate [a] _ + 168 ° (c = 0.63 in acetone), 204 ° (c = 0.63).

Analysis for C23 H30 06 Calculated .... C = 68.65, H = 7.46; found ...... C = 68.67, H = 7.54. The ultrared spectrum of the product is identical to that of an authentic sample of cortisone acetate.

c) Isolation of another oxidation product. The chloroform mother liquor obtained in b) is evaporated to dryness and the residue is taken up in a small volume of acetone. When cooling in the refrigerator, a crystalline substance is obtained. After two recrystallizations from the same solvent, a product is obtained with the following properties: melting point about 248 to 250 °; [a] _ + 97 ° (c = 0.50 in absolute alcohol); Amax (alcohol) = 241 mp. (s = 16,000).

Analysis for C21H3o05: Calculated .... C = 69.58, H = 8.34; found ...... C = 69.45, H = 8.53. The product is isomeric with 4-pregnen-11 a, 17a, 21-triol-3, 20-dione.

Example 5 a) Fermentation. The same fermentation conditions as under a) of Example 1 described are used, only with the exception that 0.5g / 1 11-deoxy-17-oxycorticosterone acetate can be added instead of progesterone.

b) Extraction of an oxidation product. That under a) by fermentation Culture filtrate obtained from 1.9 g of 11-deoxy-17-oxycorticosterone acetate is treated with chloroform extracted, and the chloroform is as in section b) of Example 4 from the Extract removed. The residue, about 420 mg, yields on further treatment. how under b) of Example 4 about 156 mg of crystals. After two recrystallizations from acetone, the 4-pregnene-11a, 17a, 21-triol-3, 20-dione obtained melts at 215 up to 218 °.

From the dried mycelium of this fermentation can 11-deoxy-17-oxycorticosterone acetate by extraction with hexane to remove fatty substances and subsequent Extraction with acetone, removal of the acetone in vacuo, taking about 1.35 g of a crystalline residue are obtained; by recrystallization of the The residue from acetone gives about 930 mg of the pure, melting at 234.6 ° Link.

Example 6 a) Fermentation. The same fermentation conditions as under a) of Example 1 described are used with the exception that 0.25 g per Liters of deoxycorticosterone added instead of progesterone.

b) Isolation of epicorticosterone. 3.581 of the culture filtrate obtained under a) during the fermentation of 1 g of deoxycorticosterone are extracted four times with 21% chloroform each time. The chloroform extracts are poured together and concentrated to give approximately 1.01 g of an amorphous solid. This solid is dissolved in 5 cc of chloroform and 20 cc of benzene, and the solution is chromatographed on a column of 30 g of silica gel (known under the trade name z, silica gel). The following results are obtained from the elution: Eluent volume solid (ccm) (mg) Chloroform-benzene (1: 4) ...... 300 traces Chloroform-Benzene (1: 1) ...... 500 " Chloroform ......... «******** '« 400 " Acetone-chloroform (1: 9) ...... 340 " Acetone-Chloroform (1: 4) ...... 850 670.2 Acetone-chloroform (1: 1) ...... 525 103.2 Acetone ....................... 250 19.5 The solids eluted with acetone-chloroform (1: 4) crystallize easily from an acetone-ether mixture in the form of rods or in the form of prisms made of ethyl acetate and have the following properties: melting point 153 to 154 °; [a] = -I- 168 ° (c = 0.7). Analysis for Cal H30 0 4 Calculated .... C = 72.80, H = 80.73; found ...... C = 72.90, H = 8.76. The product is 4-pregnen-11a, 21-diol-3, 20-dione, which can be acetylated to a product that recrystallizes from a mixture of acetone and ether, forms needle-shaped crystals that soften at 169 ° and at 172 Melting up to 177 °. Recrystallization from the same solvent mixture increases the melting point to 177.5 ° to 179 °. An authentic sample of dehydrocorticosterone acetate melts at 178 to 179.5 °. A mixture of the two shows no melting point depression and the ultrared spectra are identical. The product obtained further has the following properties: [a] = + 239 ° (c = 0.5). Analysis for Ca3H3005: Calculated .... C = 71.46, H = 7.84; found ...... C = 71.54, H = 7.99. Example 7 a) Fermentation. The same fermentation conditions as under a) of Example 1 are used, with the exception that instead of progesterone 0.25 g per liter of 17a-oxyprogesterone are added.

b) Extraction and isolation of oxidation products. The culture filtrate obtained in a) during the fermentation of 1 g of 17a-oxyprogesterone is extracted with chloroform as described under b) of Example 4. The residue, which weighs about 514 mg, is dissolved in chloroform, and the solution is chromatographed on 15 g of silica gel. The chromatogram is eluted with 1300 cc of a mixture of 5% acetone in chloroform and the solvents are evaporated to give about 245 mg of colorless crystals which are recrystallized from ethyl acetate-hexane. The product obtained, which is isomeric with 11a, 17a-dioxyprogesterone described below and is likely to be 17a-methyl-D-homo-4-androstene-lla, 17a-diol-3, 20-dione (Compound X), has the following Properties: melting point 261.2 °; [a] _ - @ - 46 ° (c = 0.74).

Analysis for Cal H30 0 4 Calculated .... C = 72.80, H = 8.73; found ...... C = 72.92, H = 8.84. Oxidation with chromic anhydride in glacial acetic acid gives a product which crystallized from acetone ether in the form of colorless platelets. The 11-ketone obtained has the following properties: melting point 238 to 242 °, [a] = + 121 (c = 0.48).

Analysis for Cal H "04: Calculated .... C = 73.23, H = 8.19; found ...... C = 73.33, H = 8.34. Further elution of the chromatogram with 550 cc of a 100% mixture of acetone-chloroform and evaporation of the solvents gives about 150 mg of a crystalline product. Recrystallization from ethyl acetate-ether gives colorless platelets with the following properties: melting point 219 to 221 °; [a] _ + 87 ° (c = 0.57).

Analysis for Cal H30 04 Calculated .... C = 72.80, H = 8.73; found ...... C = 73.11, H = 8.70. The product is 11a, 17a-dioxyprogesterone, which results from its oxidation to the well-known 4-pregnen-17a-ol-3, 11, 20-trione; from ethyl acetate-ether colorless tetrahedra with the following properties: melting point 232.5 °; [a] = 186 ° (c = 0.33).

Analysis for Cal Hab 04 Calculated .... C = 73.23, H = 8.19; found ...... C = 73.24, H = 8.37. The melting point and specific rotation agree with that of Kritchevsky et al. in the journ. Amer. Chem. Soc., Vol. 74, 1952, p. 483.

Acetylation of 11a, 17a-dioxyprogesterone produces large prisms from acetone-ether with the following properties: melting point 205 to 208 °; [a] = + 65 ° (c = 0.61).

Analysis for C "H" 06 Calculated .... C = 71.10, H = 8.30; found ...... C = 71.01, H = 8.16. Example 8 a) Fermentation. The same fermentation conditions as described under a) in Example 1 are used, with the exception that instead of Aspergillus niger Aspergillus species ATCC 11267 and instead of progesterone 17a-oxy-progesterone in an amount of 0.25 g per Liter is used.

b) Extraction of oxidation products. The culture filtrate obtained under a) during the fermentation of 875 mg of 17a-oxyprogesterone is extracted with chloroform as described under b) of Example 1. After removal of the chloroform, about 500 mg of residue remain. The residue is dissolved in chloroform and the solution is chromatographed on 15 g of silica gel. Elution with 300 cc of chloroform removes about 35 mg of unidentified by-products. Further elution with 200 cc of a mixture of 50/0 acetone in chloroform removes about 20 mg of the D-homo compound described in Example 7. Elution with chloroform containing 1500 cc of 10 0/0 acetone gives about 410 mg of the primary product, namely 11 a, 17a-dioxyprogesterone, which melts at 215 to 219 ° and has an [a] = + 87 ° (c = 0.52).

Example 9 a) Fermentation. The same fermentation conditions as under a) described by Example 1 are used, with the exception that in place of progesterone 0.50 g per liter of 5-pregnenolone are added.

b) Extraction and isolation of oxidation products. The culture filtrate obtained under a) during the fermentation of 1 g of 5-pregnenolone is, as described under b) of Example 1, extracted with chloroform, 169 mg of a fat-free steroid being obtained. The product is dissolved in 10 cc of a mixture of chloroform and benzene (1: 3) and the solution is chromatographed on 4 g of alumina washed with sulfuric acid. Elution of the chromatogram with 150 cc of chloroform-benzene (1: 1) and evaporation of the solvent gives about 40 mg of 11α-oxyprogesterone. After recrystallization from acetone-ether, the product melts at 156 to 159 ° and has a [a] _ + 71 ° (c = 0.52).

Another elution of the chromatogram with 150 cc of chloroform and Evaporation of the chloroform gives about 75 mg of a substance (probably 6, 11 a-dioxyprogesterone ), which melts after recrystallization from acetone at 247 to 250 ° and its Amaa (Alcohol) = 235 mp, is (s = 14,000).

Unoxidized 5-pregnenolone can be obtained from the dry mycelium by extraction with chloroform, removal of the chloroform in vacuo, suspension of the residue in hexane, filtering off the crystals obtained (about 654 mg) and recrystallization from acetone. The 5-pregnenolone obtained in this way melts at 186 to 190 ° and has an [a] = -E- 24 ° (c = 1.4).

Example 10 Using the methods described under a) and b) of Example 4, but with Aspergillus species ATCC 11267 instead of Aspergillus niger as the fermentation organism, 582 mg of chloroform-insoluble crystals with the following properties were obtained: melting point 216 ° to 219 °; [a] _ -I- 117 °, (c = 1 in absolute ethanol).

Analysis for C21 Hso 05 Calculated .... C = 69.58, H = 8.34; found ...... C = 69.88, H = 8.09. The infrared spectrum of the product obtained after recrystallization from acetone is identical to that of an authentic sample of 4-pregnen-1la, 17a, 21-triol-3, 20-dione.

Example 11 Under the same conditions as in Example 10, however with fermentation of 11-oxy-17-oxycorticosterone in an amount of 1 g per liter, a yield of 467 mg of 4-pregnen-1l a, 17a, 21-triol-3, 20-dione is obtained. example 12 Under the same conditions as in Example 10, but using 11-deoxy-17-oxycorti costeronacetat, you get about 204 mg 4-pregnen-1la, 17a, 21-triol-3, 20-dione.

Example 13 Under the same conditions as in Example 12, however doubling the fermentation time, you get about 220 mg 4-pregnen-1la, 17a, 21-triol-3, 20-dione.

Example 14 Under the same conditions as in Example 14, however using a crude, in the saponification of 11-deoxy-17-oxycorticosterone-21-acetate obtained mixture, about 589 mg of 4-pregnen-11a, 17a, 21-triol-3, 20-dione are obtained. The crude saponification mixture sufficient for addition to 2 liters of medium becomes like this prepared by adding 1 g of 11-deoxy-17-oxycorticosterone-21-acetate in a mixture from 47 cc of methanol and a solution of 700 mg of potassium bicarbonate in 13 cc of water suspended and the suspension for 18 hours at room temperature in a sealed Bottle shakes.

Example 15 Under the conditions described in Example 14, however with a steroid amount of 0.25 g per liter and using the microorganism Aspergillus amstelodami instead of Aspergillus niger is obtained from 0.5 g of 11-deoxy-17-oxy-corticosterone about 383 mg of steroids. These are taken up in 10 cc of chloroform; of about 164 mg of crystalline precipitate is filtered off and recrystallized from acetone. The substance obtained melts at 217 to 220 °. Its ultrared spectrum is with that of 4-pregnen-1 1a, 17a, 21-triol-3, 20-dione are identical.

The chloroform mother liquor is evaporated to dryness in a little acetone taken up, the liquor cooled, and the crystals obtained (about 33 mg) are recrystallized from acetone. The product melts at 248.5 to 250 °, and its ultra-red spectrum is identical to that of the product described under c) of Example 4.

Example 16 Under the same conditions as in Example 14, however using Aspergillus nidulans instead of Aspergillus niger one about 732 mg of a steroid from 1 g of 11-deoxy-17-oxycorticosterone. For this Product is obtained about 571 mg of 4-pregnenlla, 17a, 21-triol-3, 20-dione, which according to Recrystallization from acetone at 216 to 219 ° melts and the right ultra-red spectrum shows.

In the above examples, others can also be used in accordance with the invention Media are used, the only requirement of course being that this media stimulates the growth of the Aspergillus species used in the presence of oxygen to chat. All citric acid produced as a by-product (for example when using sucrose or molasses as partial or exclusive Supplier of carbon and energy) or any other valuable by-product (e.g. amylases or proteinases) can be obtained by the usual methods can be obtained from cultures of Aspergillus. During fermentation it should be constantly more sterile Oxygen should be added, which is necessary to carry out fermentations in the presence of oxygen usual manner can be achieved by z. B. a large area exposure of the medium to air or by using covered, aerated cultures. The incubation time can determine the degree of oxidation in the respective steroid substrates determine and is naturally interrupted when the medium has the highest content the desired product, which can be easily determined in each case leaves.

In the examples above, the steroid substrate is in the fermentation medium introduced before sowing the Aspergillus. In this case the steroid becomes expedient dissolved in chloroform for easier handling (e.g. 1 ccm chloroform per 100 cc medium). The chloroform is used during the sterilization (i.e. before the sowing) is removed from the medium again. However, the steroid substrate can also after the Aspergillus is sown and even after it has grown has to be admitted. The steroid substrate can also be oxidized in that one the steroid and air in an aqueous suspension of non-proliferating cells of the Aspergillus or by combining the steroid, air and enzymes of the Aspergillus in an aqueous cell-free medium. For example, a the medium of Example 1, but without progesterone, a 3-day-old culture centrifuged by Aspergillus niger, resuspended in distilled water, centrifuged again and resuspended in distilled water. The suspension is placed in a flask, and it is z. B. Progesterone added. The piston is kept in motion for 24 hours at 24 ° and the suspension is filtered will. The 11 a-oxyprogesterone formed is obtained by chloroform extraction of the filtrate and further treatment as under b) ff. of Example 1 obtained. According to of the invention, other conventional measures can also be used in fermentation. So z. B. the Aspergillus is grown on a medium most favorable to its propagation The mycelium can be separated from the culture fluid after it has multiplied and in a new medium containing the steroid substrate (e.g. that in the example 1) are suspended again. The Aspergillus mycelium can also be used several times be used, d. i.e., the culture fluid containing the steroid's oxidation product is separated from the mycelium, the liquid is used to recover this oxidation product treated, and the latter is in a new amount of steroid-containing medium suspended again.

Claims (4)

PATENT CLAIMS: 1. Process for the production of oxidized steroids, characterized in that one steroids with an oxidizing type of fungus of the Aspergillus strain or with oxidizing agents obtainable from such fungi Treated enzymes in the presence of oxygen and, optionally, the obtained oxidized steroids in a known manner, in particular by extraction. 2. The method according to claim 1 for the preparation of at least oxidized in 11 a-position Steroids, characterized in that one is an 11-deoxysteroid, in particular a 3, 20-diketo- or 3-oxy-20-ketopregnene, used as the starting compound. 3. Procedure according to claim 1, characterized in that progesterone, 17-oxy-11-deoxycorticosterone or its ester, deoxycorticosterone, 17a-oxyprogesterone or 5-pregnenolone as Starting compound used. 4. The method according to claim 1, characterized in that the biological oxidation with enzymes in particular of Aspergillus niger (Wisc. 72-2) Aspergillus amstelodami, Aspergillus nidulans and Aspergillus species ATCC 11267 is carried out. Considered Papers Nature, Vol. 162, 1948, p.619; Vol. 163, 1949, p.219; Journ. Amer. Chem. Soc., Vol. 74, 1952, p. 1871.