SU1123704A1 - Method of obtaining conjugated antigens - Google Patents

Abstract

A method for producing morphine-based conjugated antigens at pH 8-9, characterized in that, in order to simplify the process, morphine, antigenic protein carrier and potassium ferricyanide interact in a ratio of 1:

Description

The invention relates to immunochemistry, in particular, to a method for producing conjugated antigens of morphine-antigenic carrier, which can be used in medicine and biology for producing antibodies to morphine and related compounds, neutralizing their toxic and pharmacological effects, as well as for determining opiates in a liquid x and tissues of the body.

Methods are known for the preparation of conjugated morphine antigen carrier antigens, according to which a reactive morphine derivative is usually obtained, which is then covalently bound to an antigen protein carrier, for example, whey proteins.

Known is a method for producing conjugated antigens derived from morphine by combining the morphine with a diazonium salt of p-aminophenylacetamido, isolating the resulting azoderivatives .morfina Roliz and guide it to obtain .morfinazofenilamina which zate.m with po.moschyu carbodiimide derivative covalently linked to bovine serum albumin. The resulting conjugated antigen is isolated by known methods 1.

The disadvantages of this method are multi-stage and labor intensive.

The closest to the proposed one is a method for producing conjugated antigens based on morphine, involving the interaction of morphine with mono-azotized benzidine to isolate the resulting derivative, its diazotization and binding m to the antigen with protein carrier at pH 7-9. Usually, bovine serum albumin is used as an antigenic protein carrier and the ratio of morphine derivative and protein carrier is 1: (2-10) 2.

The disadvantage of this method is the length and complexity of the process for producing conjugated morphine antigens. The reactive derivative of morphine is obtained in several stages, with the initial molecule of morphine changing significantly by introducing additional chemical groups, which further affects the specificity of the antibodies. The stage of isolation and purification of intermediate derivatives, the use of solvents, concentrated salts and alkalis, and also toxic substances (benzidine) during the synthesis are also necessary.

The purpose of the invention is to simplify the process of obtaining conjugated antigens.

This goal is achieved in that, according to the method for producing conjugated morphine-based antigens at pH 8-9, morphine reacts.

antigenic protein carrier and potassium ferricyanide at a ratio of 1: C2-10): 1.

In the proposed method, the conjugated antigen morphine-antigen carrier get in one stage. A reactive morphine derivative, the corresponding phenoxy radical of morphine, which is formed by the interaction of morphine with potassium ferricyanide, is involved in the reaction of binding to the antigenic carrier.

The method is carried out as follows.

An aqueous solution of hydrochloride is incubated with an equal weight amount of potassium ferricyanide in the presence of a solution of bovine serum albu.min for 1-2 hours at pH 8–9 and 0–25 ° C with a morphine: antigenic carrier: ferricyanide ratio 1: (2–10 ):one.

The resulting conjugated antigen, morphine antigen carrier, is separated from the low molecular weight fraction by gel filtration on a Sephadex G-25. The morphine content of the synthesized conjugated antigen is determined by the difference in the amount of unreacted morphine added to the reaction in a known manner. Depending on the ratio of the initial reagents, conjugated antigens are obtained, in which from one to twenty antigenic molecules of a morphine molecule are covalently bound to one antigenic carrier molecule (bovine or human serum albumin). The structure of the conjugated antigens obtained was confirmed by UV-spectra, in which the absorption intensity and the shift of the maximum increase, as compared to the protein spectrum, due to morphine molecules attached to the protein.

The ratio of the starting components (1: 10: 1 -1: 2: 1) in the conjugation reaction was chosen within such limits that an optimum quality conjugated antigen, i.e., containing 11 to 20 morphine molecules per protein molecule, is obtained. With a smaller amount of morphine in the conjugated antigen, its antigenic properties are impaired; replacing with more than 20 molecules of morphine per mole of protein, the solubility of the conjugated antigen deteriorates. The selected pH range (8–9) allows the reaction to proceed at a sufficient rate with the stability of the protein antigen carrier.

In the proposed method, in comparison with the known, a significant simplification of the technology is achieved (carrying out the technology in one stage, without purification and extraction of intermediate products. Elimination of a whole series of reagents and solvents, speeding up the process about 20 times). This has become possible as a result of using 11237 the use of another method of obtaining a reactive derivative of morphine and another type of reactive derivative. It is established that the antigenic properties of the obtained product are not inferior to the properties of conjugated antigens obtained in a known manner. Example 1. To a solution of 10 mg of potassium ferricyanide in 0.5 mol of water is added a solution of 10 mg of morphine hydrochloride in 1 ml of water and a solution of 100 mg of bovine serum albumin in 2 ml of water. The resulting reaction mixture was incubated for 2 hours at 25 ° C, maintaining the pH 8 by the addition of 10% sodium hydroxide solution. The reaction mass is chromatographed on Sephadex® G-25 columns and the protein fraction is collected. It is found spectrophotometrically that, in a conjugated antigen, morphine-bovine serum al20 bumin with one protein molecule is covalently linked to 11 molecules of morphine. Example 2. According to this procedure, using conjugated antigen, morphine-human serum albumin, in which human anti-human serum al-25 bumin is used as antigenic carrier, in which 13 morphine molecules are covalently bound to one albumin molecule. Example 3. To a solution of 10 mg of ferricyanium-30 and potassium in 0.5 ml of water was added a solution of 10 mg of morphine hydrochloride in 1 ml of water and a solution of 20 mg of bovine serum al bumin in 2 ml of water. The resulting reaction mass is maintained at 10 ° C for 1 h, maintaining the pH 9 by adding 10% aqueous solution of caustic soda. The reaction mass is chromatographed on Sephadex G-25 columns and the protein fraction is collected. It is found spectrophotometrically that in conjugated antigen40, bovine serum albumin with one protein molecule is covalently bound to 20 morphine molecules. 4d Example 4. According to this method, when conjugated morphine-human serum albumin antigen is used as an antigenic carrier of human serum albumin, 22 morphine molecules are covalently bound to one protein molecule. Antigenic properties of the conjugated morphine protein obtained in Example 1 investigated on rabbits. To do this, 5 rabbits weighing 2 kg were immunized with conjugated antigen morphine-protein intramuscularly at 25 mg / kg 2-3 times a week for 6 weeks (immunization was carried out in the same way as in the known method). In the blood serum of animals, the presence of antibodies to morphine was determined by a reaction of passive hemagglutination and inhibition of passive hemagglutination, as in the prototype method. It was found that in the serum of immunized rabbits there are antibodies for the entire conjugated antigen, and their titers were high and were depending on the individuality of the animal 1: 2560-1:; 10240. When morphine at a concentration of M is introduced into the reaction medium, the antibody titer decreases to 1: 128-1: 256. Therefore, the resulting conjugated antigen morphine-protein has antigenic properties, since it induces in animals the synthesis of antibodies specific to morphine. The antigenic properties of the resulting conjugate are not inferior, and even to some extent, are superior to the antigenic properties of the conjugate obtained in a known method, since antibody titers were obtained for the entire conjugate of 1: 2560, and when morphine is added, it decreases to 1: 320. Techno-economic efficiency from the use of the present invention is to simplify the process of obtaining conjugated antigens based on morphine, which is carried out in one stage and does not require the use of such a toxic substance as benzidine.

Claims (1)

METHOD FOR PRODUCING CONJUGATED ANTIGENS on the basis of morphine at pH 8-9, characterized in that, in order to simplify the process, an interaction of morphine, an antigenic protein carrier and potassium ferricyanide is carried out at a ratio of 1: (2-10): 1.