RU2174397C1 - Method of preparing ecdysteroids and ecdysterone concentrate from vegetable raw - Google Patents

Abstract

FIELD: biotechnology. SUBSTANCE: invention relates to method of isolation of biologically active substances from vegetable raw. Method involves sap squeezing out from Rhaponticum genus plant fresh leaves followed by its filtration and concentration of filtrate. To the obtained concentrate ethyl acetate is added in an equal volume followed by stirring and solution is separated from low-polar impurities in ethyl acetate. From the purified concentrate ecdysterone is extracted with ethyl acetate, extract is concentrated by evaporation, cooled and formed ecdysterone crystals are filtered off. EFFECT: use of more available raw, simplified process, decreased consumption of reagents. 2 ex

Description

 The invention relates to methods for the isolation of biologically active substances from plant materials, in particular to methods for the isolation of phytoecdysteroids, namely ecdysterone (β-ecdysone). Ecdysterone is an insect molting hormone used in medicine and agriculture.

A known method of producing ecdysteroids from the plant Rhaponticum carthamoides [Baltaev UA, Abubakirov UA - "Chemistry of Natural Compounds", 1987, p. 681], according to which ecdysterone is extracted from Rhaponticum carthamoides rhizome roots, extraction with methanol, followed by concentration, dilution with water, hydrophobic substances extraction with hexane, ecdisterone extraction with butanol and further separation on a silica gel column in a chloroform-methanol solvent system. The disadvantage of this method is the low yield of ecdysterone (0.066%), multi-stage, the use of significant volumes of organic solvents
According to another method for producing ecdysteroids from finely ground (less than 0.25 mm) rhizomes with the roots of the plant Rhaponticum carthamoides [patent of the Russian Federation N 2112540, A 61 K 35/78, 1998] extracted with 70% ethanol, from the primary extract, the accompanying substances are removed in series liquid-phase extraction, the resulting product is purified column adsorption chromatography on alumina, followed by its crystallization. The disadvantages of this method are the long-term drying of raw materials, the use of significant volumes of ethanol in the first stage of extraction, large volumes of organic solvents in subsequent liquid-liquid extraction, multi-stage and the duration of the process.

 A significant drawback of both methods is the use of roots as a raw material for the production of ecdysterone, which leads to the destruction of wild plant species of Rhaponticum or requires introduction (which is not always possible) with an annual sowing.

 Also known are methods of producing ecdysterone from a plant of the genus Serratula. According to one of them [Kholodova Yu.D., Baltaev U., Volovenko V.O. et al. Phytoecdysteroids Serratula xerathomoides. -Chemistry of Natural Compounds ", 1979, p. 171], according to which Ecdysterone is extracted from air-dried inflorescences of Serratula xerathomoides by grinding them, followed by extraction with methanol. The resulting extract is evaporated, diluted with water, extracted repeatedly with hexane, additional methanol is distilled off, extraction with butanol, its evaporation, elution with chloroform-methanol on a column of aluminum oxide.The disadvantage of this method is the use of only inflorescences of the plant, the use of methanol during extraction, and e multistage process and a large length (ten operations for 115 hours).

 According to another method [USSR author's certificate N 1146050, A 61 K 35/78, 1985], primary extraction of the raw material is carried out with methanol, while the vacuum circulation unit is evaporated in the extractor, followed by removal of the accompanying substances by liquid extraction and product purification by liquid adsorption column chromatography on alumina. The method includes nine sequential operations: three extractions, three residues, one filtration operation, one dissolution operation and column adsorption chromatography. The implementation time of the method 66 - 70 hours. The disadvantages of this method are the use of liquid-liquid extraction operations, which require multiple repetitions and a minimum of three times the volume of extractant to the extracted volume for each extraction operation, the duration, complexity and multi-stage process, as well as the significant energy consumption of the method due to three operations of evaporation and the duration of the vacuum circulation installation.

According to the method described in [patent of the Russian Federation N 2063763, A 61 K 35/78, 1996], to obtain ecdysterone, the aerial part of a plant of the genus Serratula is crushed and extracted with water at a temperature not exceeding 100 ^o C for 1 hour. The obtained extract is passed through a layer of a solid hydrophobic sorbent, for example, activated carbon, diasorb, polysorb, simultaneously separating the accompanying substances and the final product and purifying it. Then the final product is extracted from the sorbent with an organic solvent. The disadvantage of this method is the use of large volumes of organic solvents, as well as distilled water. In a typical example of the description of the invention, 8 l of distilled water, 4 l of 20% ethyl alcohol (which is not regenerated), 8 l of a 1: 1 ethyl acetate-ethanol mixture, 200 g of activated carbon are consumed to produce 1 g of ecdysterone.

 The aim of the invention is the use of a more affordable source of raw materials - the aerial parts of the plant Rhaponticum carthamoides instead of roots, simplifying the method, increasing the productivity of the process, as well as reducing the specific consumption of organic solvents and energy consumption.

 A distinctive feature of the proposed method, which allows to solve the tasks, is the use of more affordable raw materials, the rejection of the primary extraction of the target product from plant materials using organic solvents or water, preliminary purification of the concentrate from low-polar impurities. Instead of extraction, squeezing juice is used, followed by filtration, which allows you to immediately get a concentrate of the sum of ecdysteroids. This technique greatly simplifies the process of ecdysteroid isolation. A long drying process of plant materials is also excluded, which greatly simplifies the method, increases the productivity of the process, reduces energy consumption, reduces the consumption of organic solvents and the complexity of the method and, as a result, significantly reduces the cost of the whole process. From the moment of collection to the final product, the process takes only thirty-five minutes, which allows the method to be used for large-scale production.

 The method is as follows.

 From the aerial part of a plant of the genus Rhaponticum carthamoides, juice is squeezed out on the collection day or the next day (using a juicer, press or other devices), which is filtered and the filtrate (brown color) is concentrated to 0.25 of the initial volume of the concentrate by evaporation, freezing of water with ice separation or another trick. An equal volume of ethyl acetate was added to the resulting concentrate, stirred for 15-30 seconds and a solution of low-polar impurities in ethyl acetate was separated. From the thus purified concentrate, the target product is extracted with a 3-fold volume of ethyl acetate, the ethyl acetate extract is separated, the extract is evaporated to 0.25 of its volume, the precipitated crystals of ecdysterone are cooled and filtered.

 Examples of the method.

Example 1. From 1 kg of the aerial part of the plant Rhaponticum carthamoides squeezed juice on the day of collection (0.65 L), which is filtered, and the resulting brown filtrate is concentrated to 0.16 L. 0.16 L of ethyl acetate was added to the remaining concentrate, stirred for 15-30 seconds and the organic layer was separated with dissolved low-polar impurities. Ecdysterone is extracted from the thus purified concentrate by extraction with ethyl acetate (0.3 L x 3), the extracts are combined, evaporated at a temperature of 40-65 ^o C to a volume of 160 ml, cooled to room temperature and the precipitated crystals of ecdisterone are filtered. The yield of the product is 0.164 g, which is 0.02% of wet leaves or 0.12% in terms of air-dried leaves (from 1 kg of fresh leaves after drying 0.140 kg of dry leaves were obtained), mp 244-245 ^o C (ethyl acetate: methanol - 9: 1), the content of the basic substance 98% (HPLC data).

Example 2. From 1 kg of the aerial part of the plant Rhaponticum carthamoides squeeze juice on the day of collection (0.65 L), which is filtered and the brown filtrate obtained is concentrated to 0.17 L by partially freezing water and ice. 0.17 L of ethyl acetate was added to the remaining concentrate, stirred for 15-30 sec and the organic layer was separated with dissolved low-polar impurities. From the concentrate thus purified, it is extracted with ethyl acetate (0.3 L x 3), the extracts are combined, evaporated at a temperature of 40-65 ^o C to a volume of 165 ml, cooled to room temperature and the precipitated crystals of ecdysterone are filtered. The product yield is 0.152 g, which is 0.015% of wet leaves or 0.11% in terms of air-dried leaves (from 1 kg of fresh leaves after drying 0.140 kg of dry leaves were obtained), mp 244-245 ^o C (ethyl acetate: methanol - 9: 1), the content of the basic substance 98% (HPLC data).

Claims (1)

 A method of obtaining a concentrate of ecdysteroids and ecdysterone from plant materials, including extraction with an organic solvent, characterized in that juice extracted from freshly picked leaves of plants of the genus Rhaponticum is used as a raw material for extraction, it is filtered, concentrated, the resulting concentrate is purified from low-polar impurities by treatment with an equal volume amount ethyl acetate, ecdysterone is extracted from the thus purified concentrate with ethyl acetate, the solvent is partially distilled off from the obtained extract, with ontsentrirovanny extract is cooled and the precipitated crystals were filtered ecdysterone.