DE1000382B - Process for the preparation of theophylline-7-acetic acid and its derivatives - Google Patents

Description

Process for the preparation of theophylline-7-acetic acid and its derivatives The preparation of theophylline-7-acetic acid has already been described in German patent 352980 . According to the process of this patent, theophylline is first added finite sodium hydroxide solution and then reacted with chloroacetic acid in the heat, only about 12.5% of the theoretical yield of theophylline-7-acetic acid being obtained according to the example. By modifying this method slightly, K 1 osa (cf. Archives of Pharmacy and Reports of the German Pharmaceutical Society, Vol. 288 [1955], p. 144) was able to increase the yield to 58 to 67%. Theophylline-7-acetic acid derivatives have been described by M c M il 1 an and W uest (Journal of the American Chemical Society, Vol. 75 [I953], p. 1998 ff-, reported in the Chemisches Zentralblatt, 1954, p. 4819), the theophylline-7-acetic acid ami, d, diethylamide and ethyl ester produced, namely the former in 58% yield via theophylline-7-acetyl chloride, which they in turn obtained in 36% yield from theophylline-7-acetic acid, and that Diethylamide by dropwise addition of chloroacetic acid diethylamide to an alkaline-alcoholic solution of theophylline in 29% crude yield. K 1 osa (loc. Cit.) Also describes the production of various theophylline-7-es, si.gsäureamiden, which he obtained by reacting theophylline acetyl chloride as well as theophylline 7-acetic acid esters with primary and secondary amines in 75-85% iger or 78 to 90% yield was obtained. However, since the two theophylline-7-acetic acid derivatives used as starting material must be prepared in two stages, starting from theophylline, the yields, calculated on theophylline, should be at most 60%, but consistently less.

It has now been found that theophylline derivatives of the general formula can be obtained in very good yields where R is an O H-, O Me- (Me = one equivalent of a metal atom) or an optionally substituted amide group, if an acetic acid derivative of the general formula: R'-CH., - CO is added to a suspension or solution of theophylline -R, where R 'is an easily exchangeable radical, in particular a chlorine or bromine atom, and R has the meaning given above, and slowly, e.g. B. dropwise, a basic condensing agent is added, under such conditions that the acetic acid derivative is always present in excess in the reaction mixture during the addition of the basic condensing agent until the end of the reaction. The easiest way to do this is to gradually add the alkaline condensation agent to a suspension or solution of tbeophylline and the acetic acid derivative, or the basic condensation agent and the acetic acid derivative at the same time, the latter but with a small advance if added evenly. In both cases, thorough mashing, for example by stirring, is beneficial.

The reaction can be carried out at room temperature, but it runs faster at a slightly elevated temperature, especially at 5o to 6o °. With larger approaches, the heat development is so great that one expediently cools somewhat so that the temperature does not rise too high and the yield suffers.

After the reaction has subsided, warm up to a slightly higher temperature appropriate, on the one hand, to achieve a perfect implementation, on the other hand, to to convert unused acetic acid derivative into a derivative of glycolic acid, which is consistently easier to separate from the reaction product.

Alkali hydroxides are particularly suitable as basic condensation agents, But it can also contain barium and calcium hydroxide and when working in alcoholic Solution, alkali metal alcoholate, for example sodium ethylate, can also be used. as The reaction medium is in most cases water, especially when theophylline with a slightly or partially water-soluble acetic acid derivative for implementation got. The use of alcohol as a Solvent is possible but offers no advantage. In the implementation of heavier soluble in water Acetic acid derivatives, however, the reaction is better in aqueous alcohol or else also carried out in pure or absolute alcohol, as in such a case then the implementation is better and faster.

As a small proportion of acetic acid derivatives with the formation of glycolic acid derivatives is lost for the reaction, it is advantageous to use it and also the basic condensing agent in a slight excess, for example from 10 to 15%, to be used.

Depending on the concentration of the solution and the solubility of the formed Theophylline-7-acetic acid amides, these fall during the reaction or after it Termination off. The proportion remaining dissolved in water can be caused by salting out and the more easily soluble disubstituted amides also by extraction of the optionally concentrated solution with halogenated hydrocarbons, such as chloroform or trichlorethylene, won «- earth. Theophyll.in-7-acetic acid can be acidified by acidifying the reaction solution fail.

The yields that can be achieved by the method of operation according to the invention are very good, especially in the preparation of the disubstituted amides and theophylline-7-acetic acid itself, which is why the process is particularly advantageous for this, and are consistently about go%, sometimes up to almost 100%, calculated on the theophylline used, are therefore significantly higher than when the acetic acid amides concerned are added, etc. to a theophylline sodium solution. The yield of the amides, based on the theophylline used, are also significantly better than the process starting from theophyllinetic acid chloride or ester. The acetic acid derivatives required for the reaction are easily accessible in good yield, the amides z. B. by reacting amine with a haloacetyl chloride or bromide. EXAMPLE 1 19.8 g of theophylline hydrate were added to a solution of 18.5 g of chloroacetic acid morpholide (KP-12 155 to 157 °) in 70 ccm of water and to the mixture heated to 60 ° within 15 minutes, a solution of 4, 5 g Na OH and 0.05 g KI in 20 cc of water are added dropwise. The temperature was then slowly increased to 85 to 90 ° and held at this level for 2 hours. Then 60 cc of water were distilled off and the still warm solution was placed in a separating funnel, where it was extracted four times with 40 cc of chloroform each time. The residue of crude theophylline-7-acetic acid morpholide remaining after the chloroform had been distilled off was recrystallized from benzene. Yield 27.3 g (corresponding to 89% of theory). F. = 186 °. C13 H1704N5: Calculated N 22.780 / 0, MW 307.2; Found N 22.700 / 0, MW 3.04.8. (The molecular weight was determined by titration with perchloric acid in acetic anhydride).

EXAMPLE 2 19.8 g of theophylline hydrate were added to a solution of iSg chloroacetic acid piperidide (KP-12 143 to 147 °) in 130 cc of water and, after heating to 60 ° and addition of 0.5% KI, 4.4 g of NaOH within 10 minutes , dissolved in 2o ccm of water, added dropwise. Upon addition, a clear solution initially formed which, towards the end of the reaction, became cloudy due to the separation of some crystals. After the addition of the alkali was complete, the temperature was slowly increased to 90 ° to 95 ° and kept at this level for 11/2 hours. The crystals which separated out from the cooled solution were filtered off with suction and washed with a little cold water. After adding 25 g of sodium chloride, the filtrate was extracted four times with 40 cc of trichlorethylene each time. The extracted crystals and the crystals remaining after the trichlorethylene had been distilled off were recrystallized together from isopropyl alcohol. Yield 27.9 g (corresponding to 91.5% of theory). F. = 182.5 '. C14 H19 03 N5 ' Calculated N 22.95 0/0, MW 305.2; Found N: 2: 2.860 / u, MW 3o2.8. (The molecular weight was determined by titration with perchloric acid in acetic anhydride.) Example 3 9.9 g of theophylline hydrate were suspended in 50 cc of water and the solution was heated to 60 °. Then 9 g of chloroacetic acid piperidide and, after the first drops were in the flask, a solution of 2.2 g of Na OH in 10 cc of water were added dropwise with stirring, so that the addition of the chloroacetic acid piperidide was completed before the addition of the sodium hydroxide solution. The mixture was then heated to 90 ° for a further hour. The cooled solution with the deposited crystals was mixed with 50 cc of chloroform, the chloroform layer was separated and the aqueous solution was extracted three times with 30 cc of chloroform each time. After the chloroform had been distilled off from the combined solutions, the residue was recrystallized from ethanol-benzene (9: i). Yield 14.1 g (corresponding to 92.4% of theory) of theophylline-7-ess, igsäurepiperidid. F. = 182 to 182.5o. Example 4 82.5 g of chloroacetic acid diethylamide (bp 13 114 to 117 °) were dissolved in 1.5 l of water and 99 g of theophylline hydrate were added. The mixture was heated to 50 °, the heat source was removed and then, with stirring, a solution of 22 g of NaOH in 100 cc of water, in which 0.1% of N a I was still dissolved, was added dropwise at such a rate that the temperature of the solution did not rise rose above 60 ° (duration about 15 minutes). During the addition, the solution became completely clear; towards the end of the reaction, theophylline-7-acetic acid diethylamide may partially crystallize out, especially when smaller amounts of water are used. A short time after the addition of the lye was complete, the system was heated again. the temperature increased slowly to 90 ° and held at this temperature for 2 hours. After cooling, the cotton-wool-like crystal mass was filtered off with suction, washed with a little cold water and the filtrate shaken out four times with 50 cc of chloroform each time. The extracted crystals and the residue obtained after evaporation of the chloroform were recrystallized together from isopropyl alcohol and dried. Yield 143 g of theophyll, in-7-acetic acid rediäthylamid (corresponding to 97.5% of theory). F. = i86.5 to 187o. C13 H1003 N5 Calculated N 23.890 / 0, MW 293.2; Found N 23.92%, MW 292.6. (The molecular weight was determined by titration with perchloric acid in acetic anhydride.) Example 5 9, g g of theophylline hydrate and 6.5 g of chloroacetamide (mp = 118 to 1 ig °) were heated to 50 ° in 100 cc of water and with stirring A solution of 2.75 g of NaOH and 0.5% NaI in 10 cc of water was added dropwise over the course of 1/2 hour. After the addition had ended, the mixture was heated to go ° for a further hour. After cooling and adjusting to a pH of 7, the crystal slurry was filtered off with suction and washed with a little water. Yield of crude product 10.3 g ( m.p .: 266.5 to 268.5 °). After recrystallization from water: 9.5 g of theophyll'in-7-acetic acid amide (corresponding to 80.1% of theory). F. = 270.5 to 27i °. 0.6 g of crude theophylline-7-acetic acid could still be isolated from the filtrate of the aqueous reaction solution by acidification with dilute sulfuric acid. C0 Hll 03 NS Calculated N 29.5q.0/0, MW 237.1; Found N 29.630 / 0, MW 237.8. (The Malekulargewicht was determined by titration with perchloric acid in Aoetanhydrid.) Example 6 9.9 g of theophylline-hydrate and 9.4 g Chloressigsäureanilid (mp = 135-136 °) were mixed with water to iooccm 6o ° heated and was stirred a solution of 2.2 g of NaOH and 0.05 g of NaI in 10 cc of water was added dropwise over the course of 1/2 hour. After the addition had ended, the mixture was heated to 95 ° for a further 11/2 hours. The precipitated crystals were filtered off with suction from the cooled solution, washed with a little water and then recrystallized from ethanol. Yield 14 g of theophylline-7-acetic anilide (corresponding to 89.5% of theory). F. = 229 '. C15 H15 03 N5 ' Calculated N 22.36%, MW 313.2; Found N 22.45 0 / a, MW 313.7. (The molecular weight was determined by titration with perchloric acid in acetic anhydride.) Example 7 9 g of theophylline hydrate and 10 g of chloroacetic acid phenetidide (M. A solution of 2 g of NaOH and 0.059 NaI in 50 cc of alcohol was added dropwise for 2 hours. After the addition had ended, the mixture was heated to boiling for a further 1/2 hour. After cooling, the precipitate was filtered off with suction, washed with cold alcohol, stirred with water and again filtered off with suction. After recrystallization from methanol, 14.6 g of theophylline-7-acetic acid phenetide (corresponding to 88.5% of theory) were obtained. F. = 268.5 to 269o. C17H1e04M5: Calculated N 19.61%, MW 357.2; found N ig, 690/0, MG 3534. (The Malekulargewicht was determined by titration with perchloric acid in acetic anhydride.) Example 8 50 g of theophylline hyd.rat were added to a solution of 27 g of chloroacetic acid in 250 cc of water. With stirring and cooling, half of a solution containing 2q.9 Na OH in 50 ccm of water was added and then, after heating to 50 °, the remaining sodium hydroxide solution was added dropwise with stirring over the course of 1/2 hour. After the addition had ended, the mixture was heated to 95 ° for a further 11/2 hours. After cooling, the solution was filtered (0.95 g of crude theophylline) and the filtrate was acidified to a pH of 3. The precipitated theophylline-7-acetic acid was filtered off with suction, washed with water and purified by dissolving in sodium bicarbonate and reprecipitation with acid. 55.2 g of theophylline-7-acetic acid (corresponding to gi, 85% of theory). F. = 27o to 270.50.

CO HIO 04 N4 calculated MW238.1; found MG 237, o.

(The molecular weight was determined by titration with perchloric acid in acetic anhydride certainly.)

Claims (1)

PATENT CLAIMS: i. Process for the preparation of theophylline-7-acetic acid and its derivatives of the general formula where R is an O H-, O Me- (Me = one equivalent of a metal atom) or an optionally substituted amide group, by reacting theophylline with an acetic acid derivative of the general formula R'-CH2-CO-R, where R 'is an easily exchangeable radical, in particular a chlorine or bromine atom, and R has the meaning given above, in the presence of a basic condensing agent, characterized in that the basic condensing agent is gradually added with thorough mixing to a solution or suspension of theophylline and that the acetic acid derivative is always present in excess in the reaction mixture during the addition of the basic condensing agent until the end of the reaction. a. Process according to claim i, characterized in that the free acetic acid of the general formula R'-CH2 - COOH, in which R 'has the above meaning, or its salts are reacted with theophylline. 3. The method according to claim i, characterized in that theophyll.in are reacted with acetic acid derivatives of the general formula R'-CH2 * COR, where R is a disubstituted amide group and R 'has the above meaning. 4 .. The method according to claim i to 3, characterized in that an alkali hydroxide, preferably sodium hydroxide, is used as the basic condensation agent. 5. The method according to claim i to q., Characterized in that the acetic acid derivative and the basic condensing agent in excess, especially from iö to i5%, based on theophylline, is used. 6. The method according to claim i to 5, characterized in that the reaction at elevated temperature, preferably 5o to 6o ° C, is carried out. 7. The method according to claim i to 6, characterized in that the reaction is carried out when using wholly or partially water-soluble acetic acid derivatives in water as the solvent. B. The method according to claim i to 7, characterized in that the reaction is carried out when using sparingly water-soluble acetic acid derivatives in an alcohol or aqueous alcohol as the solvent. G. Process according to claims 1 and 3 to 8, characterized in that N-disubstituted theophylline-7-acetic acid amides formed during the reaction are extracted from the aqueous solution, optionally after concentration or salting out, with the aid of a halogenated hydrocarbon.