EP1771232A1 - Method for producing dimethylaminoarglabine hydrochloride - Google Patents

Abstract

The invention relates to a method for producing dimethylaminoarglabine hydrochloride which is used as an agent during cancer therapy. The aim of the invention is achieved by virtue of the fact that parts of the plant Artemisia glabella kz. et kirg, which are above the ground, are treated after the air drying thereof, useless substances are eliminated, extraction and chromatography takes place, subsequently amination and then hydrochloride is formed in a reactor without repeated intermediate isolations, such as evaporation, filtration or dehydration, and with only one change of organic polar solvents.

Description

Process for the preparation of dimethylaminoarglabin hydrochloride

The innovation relates to a process for the preparation of dimethylaminoarglabin hydrochloride from in the aerial parts of the plant Artemisia glabella kz. et kirg. occurring Arglabin. Dimethylaminoarglabin hydrochloride is used in the field of cancer therapeutics.

Due to the commercial interest in this compound, a production process has already been claimed in WO 98/28303. It comprises the steps known for the processing of plant raw materials extraction from the plant parts, purification of worthless substances, separation of the extract by column chromatography to Roharglabin, recrystallization, amination and hydrochlorination to Aminoarglabin hydrochloride whose

Recrystallization, drying and lyophilization. The amination is carried out by dissolving the crystalline arglabine in alcohol with addition of dimethylamine in the form of an aqueous solution until the pH of 12.3 to 12.4 is reached. The formation and isolation of the hydrochloride from the Aminoarglabin now carried out by distilling off the alcohol and addition of chloroform, separation of the remaining water and filtration of the solution, evaporation of the chloroform and addition of alcohol, introducing hydrogen chloride to the pH of the solution 5.0 - 5.5, evaporation of the alcohol and addition of ethyl acetate.

A disadvantage of the above process thus remains: -> production of the crude extract with chloroform, -> pre-purification of the chloroform extract provides an extract with approx.

7% active ingredient content, -> chromatography on silica gel with low separation efficiency; -> The eluent used is the benzene classified as carcinogenic,

-> The chromatography gives no pure product, about 65% active ingredient content,

-> the stationary phase is difficult to regenerate,

-> the use of the aqueous amine component requires the separation of the water from the reaction mixture, -> use of chloroform for separation, -> several individual steps, such as drying, separation, distillation and renewed

Solve necessary.

The invention specified in claim 1 is therefore based on the problem to provide a process for the preparation of dimethylaminoarglabin hydrochloride, which eliminates these disadvantages.

This object is achieved by the invention in that from the above-ground parts of plants of Artemisia glabella kz. et kirg. after air drying, purification of worthless substances, extraction and chromatography, the amination and hydrochloride formation is carried out successively in a reactor without repeated intermediate isolation, such as evaporation, filtration or dehydration, with only one change of organic polar solvent.

The advantages achieved by the invention are, in particular, that the use of only suspected carcinogenic solvents is excluded and thus can not appear by human or technical failure solvent residues in the pharmaceutical composition, even in traces. Another technical advantage is the ability to work in a reactor without intermediate insulation. Further advantageous embodiments of individual method steps of the invention are specified in the subclaims.

The invention will be explained in more detail below on a preferred embodiment / recipe.

The aboveground plant parts of Artemisia glabella kz. et kirg. are dried in the air and then ground. After transfer of the ground material in a o mixer-drier, the abortion of essential oils takes place first by adding water and steam under reduced pressure. Thereafter, the starting material is dried under reduced pressure in the same apparatus to a residual moisture content of 5-7%. The pretreated and dried starting material is transferred to the extraction basket of the carbon dioxide extraction unit 5. The extraction with supercritical carbon dioxide, also by known modifiers in its extraction power modified carbon dioxide, depending on the plant material, temperature, extraction pressure and composition of the carbon dioxide provides a crude extract with a value of 20 - 35% by weight of arglabin. 0 By dissolving this crude extract with acetonitrile to a 4% extract solution and diluting with water, the deposition of waxy impurities, which are filtered off. The filtrate of this pre-purification is the starting material of the chromatographic purification. The HPLC purification is an isocratic chromatography on a reverse phase silica gel with RP-8 or RP-18 silica gel 5 and an aqueous-organic phase, preferably mixtures of acetonitrile / water or alcohols and water. Time-controlled, the recyclable fraction is determined using a UV detector as the detector. After the recyclable peak, a rinse step with acetonitrile or alcohols is performed to eliminate late elution from the separation column. Subsequently, with the respective eluent system, the separation column preconditioned.

From the recyclable fraction, the arglabin is recovered by means of liquid / liquid extraction. Extractants are especially aliphatic ethers that do not mix with water, especially t-butyl methyl ether. The non-aqueous organic phase with the valuable material is concentrated to dryness and the recyclable material is recrystallized from preferably n-hexane.

In the workup through the stages of pretreatment, chromatography, extraction of the recyclable material and recrystallization, a recovery of 88-90% of the arglabin contained in the carbon dioxide extract was achieved. In this case, a purity of about 99.5% could be found.

A normal pressure chromatography under the same workup conditions with poorer overall yield only an arglabine with worse degree of purity (> 96%), but this also exceeds the stated state of the art.

Derivatization of arglabin is carried out in polar solvents such as alcohols or acetonitrile with the reagent DIMCARB (dimetylammonium dimethylcarbamate). Under room temperature, a conversion of up to 98% with high purity takes place in a very short time. After separation of the solvent and traces of DIMCARB and redissolving in preferably ethyl acetate or t-butyl-methyl ether, the salt formation takes place by introducing dry gaseous hydrogen chloride. The end product dimethylaminoarglabin hydrochloride precipitates in crystalline form and is separated off and recrystallized again by means of preferably ethyl acetate.

Claims

1. A process for the preparation of dimethylaminoarglabin hydrochloride from the above-ground parts of plants of Artemisia glabella kz. et kirg. after their

Air drying, purification of worthless substances, extraction, chromatography, amination and hydrochloride formation, characterized in that the amination and hydrochloride formation takes place successively in a reactor without repeated intermediate insulation, such as evaporation, filtration or dehydration, with only one change of organic polar solvent.

2. A process for the preparation of dimethylaminoarglabin hydrochloride according to claim 1, characterized in that the extraction of the valuable substance arglabin takes place by means of supercritical carbon dioxide.

3. A process for the preparation of dimethylaminoarglabin hydrochloride according to claim 2, characterized in that the supercritical carbon dioxide has been improved by means of known modifiers in its extraction performance.

4. A process for the preparation of dimethylaminoarglabin hydrochloride according to one or more of the preceding claims, characterized in that the chromatography of the liquid supernatant after the known carried out separating the lipophilic ingredients preferably as liquid / liquid partition chromatography or reverse-phase HPLC with known regeneration of stationary phase and harmless organic / aqueous eluent is performed.

5. A process for the preparation of dimethylaminoarglabin hydrochloride according to one or more of the preceding claims, characterized in that from the recyclable fraction of the chromatography by noncancerogenic organic solvents, such as preferably aliphatic ether, in particular t-butyl methyl ether, which are immiscible with the solvent of the recyclable fraction, the valuable substance is extracted.

6. A process for preparing dimethylaminoarglabin hydrochloride according to one or more of the preceding claims, characterized in that according to known recrystallization, preferably by means of n-hexane, the derivatization with an amine component, preferably DIMCARB, in an organic polar solvent, preferably alcohols or acetonitrile , takes place, whereby a water separation is eliminated.

7. A process for the preparation of dimethylaminoarglabin hydrochloride according to one or more of the preceding claims, characterized in that after separation of the solvent and remaining traces of the amine component and redissolving in preferably t-butyl methyl ether, the salt formation is carried out with dry gaseous hydrogen chloride and the resulting crystalline end product dimethylaminoarglabin hydrochloride is separated off.