PL237324B1 - 5-hydroxy-4'-O-β-D-(4"-O-methylglucopyranosyl)-flavone and method for producing 5-hydroxy-4'-O-β-D-(4"-O-methylglucopyranosyl)-flavone - Google Patents

Abstract

The subject of the application is a compound named: 5-hydroxy-4'-O-ß-D-(4-O-methylglucopyranosyl)-flavone of formula 2 and a method of obtaining this compound. This method consists in introducing the strain Isaria fumosorosea KCH J2 into a substrate suitable for filamentous fungi. After at least 72 hours, the substrate, 5-hydroxyflavone of the formula I, dissolved in a water-miscible organic solvent, is introduced into the culture. The transformation is carried out at a temperature of 20 to 30 degrees Celsius with continuous shaking for at least 96 hours. The product is then extracted with a water-immiscible organic solvent and purified by chromatography.

Description

Description of the invention

The subject of the invention is 5-hydroxy-4'-O - ^ - D- (4 "- O-methylglucopyranosyl) -flavone and a method of producing 5-hydroxy-4'-O - ^ - D- (4" -O-methylglucopyranosyl) - flavone of the formula 2 shown in the figure.

This compound can be used as an antioxidant in the food industry and as a component of pharmaceuticals and cosmetics, as well as a feed additive.

Primuletin (5-hydroxy flavone) is a naturally occurring compound that is often found in plants of the genera Primula and Dionysia. This compound acts as an activator for calcium-activated and ATP-sensitive potassium channels; the hydroxyl group at the 5-position appears to be a structural requirement for calcium activated potassium channels. The result of the above action is vasorelaxant activity demonstrated by 5-hydroxyflavone. The discussed compound also shows a strong antagonistic effect towards androgen receptors, the strongest among the 25 tested flavones. The activity of 5-hydroxyflavone was three times higher than that of flutamide, a known antiandrogen used in the treatment of prostate cancer (Uivarosi V, Badea M, Olar R, Draghici C, Barbuceanu §F. Synthesis and characterization of some new complexes of magnesium (II) and zinc ( II) with the natural flavonoid primuletin. Molecules. 2013, 18 (7), 7631-45). 5-Hydroxyflavone also has anti-aggregating activity against platelets (Alkadi KAA, Adam A, Taha M, Hasan MH, Ali Shah SA. Antiplatelet aggregation activity of 5-hydroxyflavone, 2'-hydroxyflavanone, paeonol and bergenin isolated from stem bark of garcinia malaccensis in human whole blood. Orient J Chem. 2013, 29 (3), 871-5).

Flavonoids in plants only occur in combination with sugar units. Glycosylation increases the solubility of the flavonoid molecule in water and increases its stability. As a result, the bioavailability of compounds taken with food increases (J. Xiao, TS Muzashvili, Ml. Georgiev, Biotechnology Advances, 2014, 32, 1145-1156, Plaza, M .; Pozzo, T; Liu, J .; Gulshan Ara, KZ ; Turner, C .; Nordberg Karlsson, E. Substituent effects on in vitro antioxidizing properties, stability, and solubility in flavonoids. J. Agric. Food Chem. 2014, 62, 3321-3333).

It is believed that flavonoid glycosides must be hydrolyzed by the intestinal microflora to the appropriate aglycones before being absorbed in the gastrointestinal tract. However, it has been proven that partial absorption of the sugar flavonoid linkages is also possible.

A glucose molecule attached to position 3 of quercetin (3,5,7,3 ', 4'-pentahydroxyflavone) increased absorption of this glucoside in the small intestine to 52%, compared with 24% absorption of quercetin aglycone and 17% of quercetin rutinoside (Heim, KE ; Tagliaferro, AR; Bobilya, DJ Flavonoid antioxidants: Chemistry, metabolism and structure-activity relationships. J. Nutr. Biochem. 2002, 13, 572-584, Hollman, P C .; Bijsman, MN; van Gameren, Y; Cnossen , E. P; de Vries, JH; Katan, MB The sugar moiety is a major determinant of the absorption of dietary flavonoid glycosides in man. Free Radie. Res. 1999, 31,569-573).

There is no information in the available literature on the preparation of 5-hydroxy-4'-O - /> - D- (4 "-O-methylglucopyranosyl) -flavone by chemical synthesis and biotransformation.

In recent years, compounds of natural origin and their biotransformation counterparts have become more and more important in the treatment and prevention of diseases. Therefore, it is important to search for new methods of producing biologically active compounds that can be used in the pharmaceutical, cosmetic and food industries.

The essence of the invention is 5-hydroxy-4'-O -> - D- (4 "-O-methylglucopyranosyl) -flavone.

The essence of obtaining 5-hydroxy-4'-O - /> - D- (4 "- O-methylglucopyranosyl) -flavone-5-hydroxy-4'-O - /> - D- (4" -O-methylglucopyranosyl) - the flavone u consists in introducing the strain Isaria fumosorosea KCH J2 into a substrate suitable for filamentous fungi. After at least 72 hours, the substrate is introduced into the culture, which is the 5-hydroxy flavone of formula I, dissolved in a water-miscible organic solvent. The transformation is carried out at a temperature of 20 to 30 degrees Celsius with continuous shaking for at least 96 hours. Subsequently, the product is extracted with a water-immiscible organic solvent and purified by chromatography.

Preferably, the ratio of the weight of the substrate added to the culture volume is 0.1 mg: 1 ml.

It is also preferred that the process is carried out at a temperature of 25 degrees Celsius.

Additionally, it is preferred that the transformation is carried out for 168 hours.

PL237 324 Β1

By following the invention, as a result of the action of the enzyme system contained in the cells of the strain Isaria fumosorosea KCH J2, hydroxylation and attachment of 4-methoxy / β-D-glucose at C-4 'occurs. The product obtained in this way is separated from the aqueous culture of the microorganism by a known method by extraction with a water-immiscible organic solvent (ethyl acetate).

The main advantage of the invention is the preparation of 5-hydroxy-4'-O - / β - D- (4 "-O-methylglucopyranosyl) -flavone at room temperature and at the natural pH of the strain using a non-human pathogen microorganism.

The use of biotransformation, instead of chemical synthesis, allows in an environmentally friendly way to obtain compounds with higher bioavailability and biological activity than the substrates used (E. Kostrzewa-Susłow, J. Dmochowska-Gładysz, J. Oszmiański, Journal of Molecular Catalysis B: Enzymatic, 2007, 49 (1-4), 113-117, WA Loughlin, Bioresource Technology, 2000, 74, 49-62).

The invention is explained in more detail using an exemplary embodiment.

Example. To the Erlenmeyer flask with a capacity of 2,000 cm ^3, which is 500 cm ^{3 of} a sterile medium containing 10 g aminobaku and 30 g of glucose, the strain is introduced Isaria fumosorosea MSDS J2 disclosed in Patent Application P.416996. After 96 hours of growth, 50 mg of 5-hydroxy flavone of formula I, dissolved in 1 cm ^{3 of} tetrahydrofuran, are added. The transformation is carried out at 25 degrees Celsius with continuous shaking for 7 days. The reaction mixture was then extracted three times with ethyl acetate, dried with anhydrous magnesium sulfate and the solvent was evaporated. The extract obtained is purified by chromatography using a 9: 1 mixture of chloroform and methanol as eluent.

In this way, 26 mg of 5-hydroxy-4'-O - / β - D- (4 "-O-methylglucopyranosyl) -flavone are obtained (29% yield). Substrate conversion rate by HPLC> 99%

The obtained product is characterized by the following spectral data.

Description of the signals from the ¹ H NMR spectrum (600 MHz, Acetone-de)

Signals from the flavonoid backbone Sugar unit signals δ [ppm] J [Hz] H. δ [ppm] J [Hz] H. 6.87 (s) - H-3 5.15 (d) 7.7 1C 6.81 (d) 8.4 H-6 3.56 (m) - 2C 7.69 (t) 8.3 H-7 3.70 (m) - 3C 7.18 (d) 8.4 H-8 3.27 (m) - 4C 8.10 (d) 8.6 H-2 ' 3.58 (m) - 5C 7.29 (d) 8.6 H-3 ' 3.89 (m) 3.76 (m) - 6C 7.29 (d) 8.6 H-5 ' 3.61 (s) • -oh ₃ 8.10 (d) 8.6 H-6 '

Patent claims

Claims (5)

1. 5-hydroxy-4′-O - / β - D- (4 "-O-methylglucopyranosyl) -flavone of formula 2. 2. Method for the production of 5-hydroxy-4'-O - /? - D- (4 "-O-methylglucopyranosyl) -flavone characterized in that the Isaria fumosorosea KCH J2 strain is introduced into a medium suitable for filamentous fungi, then after at least 72 hours are introduced into the culture PL 237 324 Β1 substrate, which is 5-hydroxy flavone of formula 1, dissolved in a water-miscible organic solvent, the transformation is carried out at a temperature of 20 to 30 degrees Celsius, with continuous shaking, for at least 96 hours, then the product is extracted with a water-immiscible organic solvent and purified by chromatography. 3. The method according to p. The method of claim 2, wherein the ratio of the weight of the added substrate to the culture volume is 0.1 mg: 1 mL. 4. The method according to p. The process of claim 2, characterized in that the temperature of the process is 25 degrees Celsius. 5. The method according to claim 2, characterized in that the transformation is carried out for 168 hours.