RU2281957C1 - Water-soluble sodium-, calcium-, iron-polygalactouronate stimulating hemopoiesis - Google Patents

Abstract

FIELD: organic chemistry, medicine, pharmacy.

SUBSTANCE: invention describes a water-soluble sodium-, calcium-, iron-polygalactouronate of the general formula (I):

used as a stimulating agent of the hemopoiesis process. The compound is prepared by treatment of pectin with alkali NaOH solution at temperature 50-60°C and successive addition of aqueous solution of calcium and iron salts followed by precipitation with alcohol, centrifugation and drying. The compound can be used in using both a solid substance and as solutions for pharmaceutical aims.

EFFECT: valuable medicinal properties of agent.

3 cl, 2 tbl, 4 ex

Description

The invention relates to the field of high molecular weight natural compounds, and in particular to new polymetallic complexes of polygalacturonic acid with valuable biological properties.

Water-insoluble metal pectinates with antimicrobial properties are known (USSR Author's Certificate No. 1776656 A1, class C 08 V 37/06, 1992). The disadvantage of these compounds is the lack of solubility in water.

Water-insoluble complexes of metal ions with polygalacturonic acid are known to have a biological effect on a living organism when administered orally in solid form: they increase the iron content in blood serum (USSR Patent No. 886750, class 08 08 37/06, 1981). The disadvantage of the proposed complexes is the lack of solubility in water, which limits the possibility of their use in pharmacological practice.

The closest in technical essence and the achieved result to the proposed invention solution are water-soluble bi- and polymetallic complexes of polygalacturonic acid using three metals - trace elements Fe, Cu, Co, stimulating the hematopoiesis process (RF Patent No. 2219187, class 08 08 37/06 , A 61 P 7/00, A 61 K 31/732, 2003).

In this application, the task is to obtain a new complex of polygalacturonic acid containing macronutrients - Na, Ca and microelement Fe, which will expand the range of biologically active substances with antianemic properties.

EFFECT: obtaining a new compound — water-soluble sodium, calcium, and iron polygalacturonate, which stimulates the hematopoiesis process and is suitable for use both in solid form and in the form of solutions for pharmaceutical purposes.

The problem is solved by a new water-soluble polymetallic complex of polygalacturonic acid of the formula I, which has anti-anemic properties.

Compounds of formula I are prepared analogously to the process (RF Patent No. 2220981, class A 61 K 31/732, 2004). At the first stage, by treating pectin of the general formula II with an alkali solution of NaOH at 50-60 ° C, polygalacturonate Na is obtained. Next, aqueous solutions of calcium and iron salts are successively added, and soluble complexes are isolated by precipitation with alcohol, centrifugation and drying of the target product.

New compounds of general formula I can be used for pharmaceutical purposes to stimulate the hematopoietic function of the body, as illustrated in examples 3 and 4.

The preparation of compounds of general formula I is carried out as follows: a solution of sodium hydroxide in water is added to a solution of pectin in distilled water with stirring at 50-60 ° C for 1.0-1.5 hours to form sodium polygalacturonate, then solutions of salts of divalent metals calcium and iron are added, and after 20 min, the target complex is precipitated with ethanol, centrifuged and dried at 40-50 ° C.

The presented results were obtained using citrus pectin of the Classic C-401 brand manufactured by Herbstreith & Fox (Germany) with an average molecular weight of M _n 17600 determined by the method of viscometry.

The degree of polymerization (g) of sodium pectate and the divalent metal pectates presented in the application corresponds to the degree of polymerization of the starting pectin and is calculated by the formula

g = M _η / M _g.k. where M _η is the molecular weight of the original pectin,

M _gk is the molecular weight of the galacturonic acid residue (176).

The molecular weight of the starting pectin was determined by viscometry. The Kuhn-Mark equation establishes the dependence of the average molecular weight on the intrinsic viscosity

[η] = kM ^α ;

where [η] is the intrinsic or intrinsic viscosity; k and α are constants depending on the structure of the polymer and its interaction with the solvent. For pectins according to Glikman and Orlov, the Kun-Mark equation (solvent is a 1% NaCl solution) is as follows (Shelukhina NP, Abaeva R.Sh., Aymukhamedova GB Pectin and the parameters for its preparation. Frunze: Ilim. 1987 ):

[η] = 1.1 · 10 ^-5 · M ^1.22

The values of n and m in the formula (I) were determined on the basis of calculations by the degree of substitution of Na for metal 2: in the described examples, it is 25%. Corresponding to this value, with the degree of substitution of Na for Ca, equal to 12.5%, and for Fe, equal to 12.5%, in each set of elementary units containing Na, Ca and Fe, to six elementary units containing Na (75%), one link containing Ca (12.5%) and one link containing Fe (12.5%). The total degree of substitution for Ca and Fe is 25%.

Therefore, n = 75: 25 = 3,

m = g: (n + 1) = 100: (3 + 1) = 25 (for g = 100).

The invention is illustrated by examples 1-4 of obtaining polymetallic complexes of polygalacturonic acid and studies of their biological activity. Sodium, calcium polygalacturonate described in example 2, is synthesized to compare its biological properties with the claimed sodium, calcium, iron polygalacturonate.

Example 1. Obtaining sodium, calcium, iron polygalacturonate:

a) obtaining sodium polygalacturonate

10 g of pectin are added to the flask and 375 ml of water are added with stirring. Pectin is evenly distributed throughout the volume, no lumps are formed. At a bath temperature of 50-60 ° C, an alkali solution of 1.275 g of NaOH in 25 ml of water is added to the pectin solution in small portions with continuous stirring for 2 hours, controlling the pH to 7.0-7.5. At the end of the process, the total volume is adjusted with water to 500 ml. In the resulting solution (volume 500 ml) contains 11 g of sodium polygalacturonate (experimentally determined).

b) obtaining sodium, calcium, iron polygalacturonate

400 ml of a solution containing 8.8 g of sodium polygalacturonate is transferred to a flask, a solution of iron sulfate (0.44 g of FeSO ₄ · 7H ₂ O in 178 ml of water) is added, then a solution of calcium chloride (0.18 g of CaCl ₂ in 178 ml of water) is added. Previously, all three solutions are heated to 55 ° C. After 20 minutes, 1500 ml of ethanol was added to the clear solution, the precipitate was separated by centrifugation, washed with 200 ml of ethanol, dried at 40-50 ° C in an oven, and ground to a homogeneous powder. The yield of Na, Ca, Fe - polygalacturonate of formula I is 6.1 g. Content: Na 7.21%, Ca 1.05%, Fe 1.46%. The degree of substitution of Na for Ca is 12.5%, Na for Fe - 12.5%; g = 100, n = 3, m = 25.

The target product is sodium-, calcium-, iron-polygalacturonate — a tan powder, odorless, mucous taste. It is soluble in water at 50-60 ° C with the formation of solutions with a concentration of up to 1.5%, optically active: [α] _D ²⁰ = + 327.27 ° (C 0.15; H ₂ O). IR spectrum (ν, cm ^-1 ): 954 pl. (CH), 1015, 1101 (С-О, С-С), 1149 cf. (С-С-С), 1334 (C-OO), 1633 (C = O).

Example 2. Obtaining sodium, calcium polygalacturonate:

a) sodium polygalacturonate obtained according to paragraph a) of example 1.

b) obtaining sodium, calcium polygalacturonate

100 ml of a solution containing 2.2 g of sodium polygalacturonate is transferred to a flask, a solution of calcium chloride (0.09 g of CaCl ₂ in 100 ml of water) is added. Previously, both solutions are heated to 55 ° C. After 20 minutes, 400 ml of ethanol was added to the clear solution, the precipitate was separated by centrifugation, washed with 50 ml of ethanol, dried at 40-50 ° C in an oven, and ground to a homogeneous powder. The yield of sodium, calcium polygalacturonate of formula I is 1.67 g. Content: Na 6.60%, Ca 1.90%. The degree of substitution of Na for Ca is 25%;

g = 100, n = 3, m = 25.

The resulting product - sodium, calcium polygalacturonate is a white powder, odorless, mucous taste. It is soluble in water at 50-60 ° С with the formation of solutions with a concentration of up to 1.5%, optically active: [α] _D ²⁰ = + 307.25 ° (С 0.15; Н ₂ О). IR spectrum (ν, cm ^-1 ): 954 pl. (CH), 1015, 1101 (С-О, С-С), 1149 cf. (С-С-С), 1333 words (C-OO), 1634 (C = O).

Example 3. The effect of sodium, calcium, iron-polygalacturonate on hematopoietic function in young rats.

In young animals (age starting from 1-5 days), the experiment was carried out according to the following scheme: the test solutions were started to be given to nursing females, then, when the pups were 1-1.5 months old, the females were precipitated, and the rat pups were continued to be fed with solutions. In the experiment, the amount of the drinkable solution was taken into account daily, the animals were monitored, the body weight was examined weekly and blood was taken from the tip of the tail for analysis. The hemoglobin concentration (in grams per liter) was determined in the blood by the hemoglobin cyanide method, the number of red blood cells (in millions per microliter) in the Garyaev chamber, and the hemoglobin content in a single red blood cell was calculated. The obtained digital material was processed statistically on a computer in the Origin 6.0 program, the data were compared by Student t-test. Daily average gains were determined using regression analysis in the Origin 6.0 program.

The claimed new compound - sodium, calcium, iron-polygalacturonate (1% solution) was investigated for biological activity: for growth, development and hematological parameters of young rats. For comparison, a solution of sodium, iron, cobalt, copper polygalacturonate (PG Na, Fe, Co, Cu), synthesized according to the method described in the RF Patent No. 2219187, class. C 08 B 37/06, A 61 P 7/00, A 61 K 31/732, 2003, and a solution of sodium, calcium polygalacturonate synthesized according to Example 2. The results are shown in table 1.

As can be seen from the table, the complex with calcium - sodium, calcium polygalacturonate (PG Na, Ca) did not cause significant changes in the studied parameters of the blood picture and daily weight gain. In contrast to the complex with calcium, the metal complex with calcium and iron - sodium, calcium, iron polygalacturonate (PG Na, Ca, Fe) caused a significant increase in hemoglobin and the hemoglobin content in a separate red blood cell. Moreover, these hematological indices exceeded the corresponding indices of the group receiving the polymetallocomplex PG Na, Fe, Co, Cu. For PG Na, Ca, Fe, the hemoglobin concentration in comparison with the control group of rat pups was 61% higher, and in comparison with adult females - by 35%. Compared with similar examples described in the patent of the Russian Federation No. 2219187, class. С 08 В 37/06, А 61 Р 7/00, А 61 К 31/732, 2003, this effect of PG Ca, Fe on the hemoglobin concentration was significantly higher than in comparison with the polymetallocomplex PG Na, Fe, Co, Cu (increase compared with the control by 12.8%), and with sodium-, iron-polygalacturonate (an increase compared with the control by 9.9%). It was established that the new compound — sodium, calcium, and iron polygalacturonate in the studied concentrations does not show toxic effects on experimental animals and is low toxic (LD ₅₀ with an intraperitoneal administration of 1100 mg / kg).

Example 4. The effect of sodium, calcium, zhelezopoligalacturonate on hematological parameters in mice.

Analogously to example 3, male mice for drinking were injected with 1% solutions of sodium, calcium, iron polygalacturonate or sodium, iron, cobalt, copper polygalacturonate (RF Patent No. 2219187, class 08 08 37/06, A 61 P 7/00 , A 61 K 31/732, 2003). For testing, the solutions were pre-diluted with distilled water in a ratio of 1: 1 or 1: 3. Before the experiment and during the experiment, hematological parameters were examined in animals every 10 days: hemoglobin, red blood cell count, hemoglobin content in a separate red blood cell. The results are shown in table 2. The greatest effect was observed on day 20-25 from the start of consumption of the solution, therefore, the table shows data for this period of the experiment.

As can be seen from table 2, at the same concentrations of the substance in the evaporated PG solutions of Na, Ca, Fe, it exhibits a higher effect on the studied blood parameters (hemoglobin concentration, red blood cell count) than the previously developed polymetallocomplex PG Na, Fe, Co, Cu.

Thus, the new compound - sodium, calcium, iron-polygalacturonate is a promising highly effective anti-anemic agent. Since the composition of the claimed compounds includes such valuable biogenic metals as calcium and iron, the resulting substance can have a wide range of uses in medical practice.

Claims (2)

1. Water-soluble sodium, calcium, iron-polygalacturonate of the general formula I

2. The water-soluble sodium, calcium, iron-polygalacturonate according to claim 1 as a stimulator of the hematopoiesis process.