SU979508A1 - Process for preparing immobilized plasminogene - Google Patents

Description

(54)) A METHOD FOR OBTAINING AN IMMOBILIZED PLASMINOGEN.

The invention relates to the technology of obtaining mobile mobilized preparations and can be used by S farm companies (medicine and medicine, specifically in medicine for therapeutic purposes, since a number of human diseases are caused by specific enzyme deficiency).

Immobilization of biologically active compounds, in particular enzymes, is widely used for their MODIs.

fakatsii .-- In this way, the temperature stability of enzymes, resistance to the action of denaturing agents, increases, the duration of enzymes is prolonged.

Plasminogen is the proenzyme of the main component of the anticoagulants of the borrowed system of plasmin's blood, the main physiological role of which is the lysis of fibrin clots (thrombus) formed.

Methods are known for immobilizing plasminogen by covalent binding to a carrier. For example, the method of immobilization of plasminogen on activated cyanogen bromide Sepharose C13.

The closest to the proposed method is the immobilization of plasminogen on activated bromine c, eparose. The preparations of immobilized plasti polypea obtained by this method contain 0.7–1.3 mg proteing per 1 g of dry sepharose, and the specific activity of the preparation after activation is 1.5–3.1 karlolitol units per 1 mg of protein 2.

The disadvantage of these methods is that the immobilization of plasminogen is carried out by covalent bonding, as a result of which

Fibrinolytic activity decreases and, therefore, drugs cannot be used for medical purposes.

The purpose of the invention is to increase the specific activity of the target product.

20

The goal is achieved by the fact that according to the method of obtaining immobilized plasminogen using activated bromician sepharose as a carrier,

25, activated with cyanogen bromide-activated sepharose coupled with fibrinogen, immobilization is carried out in 0.1 M sodium phosphate pH 7.6, followed by removal of non-specifically sorbed plasminogen by washing with the same buffer with 0.5 M sodium chloride. Under conditions By affinity immobilization, sorption binding of the enzyme to the carrier occurs on the basis of a natural biospecific medium, which makes it possible to obtain preparations with a controlled ability to be enhanced into plasmin. The affinity binding of plasminogen, and after its activation and plasmin, with the fibrino genome is not realized through the active center, but through lysine-binding / fragments. The active center of plasmin, when combined with fibrinogen, remains free and is able to interact with protein substrates, in particular with casein. Example 1 Sepharo activation is carried out in the usual manner. Bovine fibrinogen is dialyzed against OD M phosphate buffer at pH 7.8 on the deck for 24 hours against 10 liters of buffer. Then, 71 ml of dialyzed fibrinogen is added to 16 mp of activated sepharose. The coupling reaction proceeds at 4 ° C under argon for 19 hours. Withered with fibrinogen, sequentially washed with 0.1 M phosphate buffer, pH 7.8 (2-3 l), 0.1 M tris-phosphate buffer, pH 8.6; 1 M sodium chloride, 0.025 And E-aminocaproic acid (3 l), 0.1 M Tris-phosphate buffer pH 4.1; 1 M sodium chloride and 0.025 M 8-aminocaproic acid, pH 7.6 (2 l ;, 0.1 M HzRO4 and 0.2 M glycerol (2 l) 0.05 M Tris-HzRO 0.1 M sodium chloride 0.025 M b-aminocaproic acid pH 7.6 12L Washed fibrinogen-sepharose is stored at 4 ° C with MAMOZ. Binding efficiency is 0.150 g of fibrinogen per 1 g of sepharose (dry) or 40 mg per 1 ml of serophase, 4 ml of plasminogen in 0 , 1 M phosphate buffer, pH with protein concentration 1 mg / ml and specificity in 1 and 2 experiments initial activity 10 ke / mg, in 3-6 experiments initial activity C, 5 ke / mg activity of 10 ke / mg slowly passed through 1 ml (settled) f ibrinogen-sepharose, packed in a capillary column. Nonspecifically sorbed plasminogen is removed by washing the column with the same buffer, and then with buffer with 0.5 M sodium chloride until the protein disappears in the wash water. On the gel, 2 mg of plasminogen is immobilized. -fibrinogen-Sepharose after activation with streptokinase 10 ke / mg sorption of pro-enzyme. Through this plasmin-gvn-fibrinogen-gel, 2 ml of plasminogen solution containing 2 mg of protein was passed in the same way. After removal of non-specifically sorbed plasmogen, another 2 mg of protein was immobilized on the gel, the specific activity of the gel / mg, Example 2, 2 ml of plasminogen with a concentration of 5 g were passed through a column filled with 2 g of fibrinogen-sepharose. mg / ml - and specific activity of 6.5 ke / mg. The non-specifically bound protein was then removed (as described in Example 1), Fibrinogen-Sepharose imi-1 was expanded, 3.8 mg of protein per 1 ml of gel, the specific activity of the gel was 5.6 ke / mg. Through the obtained plasminogen-fibrinogen-sepharose trizida miss 2 ml of plasminogen solution containing 15 mg of protein. After each pass, the gel is washed from non-specifically bound protein (example 1). After the 1.2 and 3rd passes of plasma nogene, the content of plasminogen in the preparation is respectively 15.4; 22.4 and 30.0 mg of protein, and the specificity-7 per activity decreases to 2.3 / 1.5 and 0.8 ke / mg, respectively. The test results are shown in the table.

Thus, the plaminogen when bound to fibrinogen-α. Pharoeoy in an amount of 2 mg per ml of gel completely retains its activity after activation by streptokinase. After activation by streptokinase activity: plasmin is detected only in the gel fraction and the gel can be repeatedly used to determine activity. This indicates that after activation of plasminogen to plasmin, it remains in a carrier-related state.

The activity of the obtained preparations of immobilized plasminogen after activation by streptokinase is close to the initial activity of soluble plasminogen and significantly exceeds the specific activity of preparations obtained by covalent immobilization of plasminogen 2 3,

Using the proposed method of immobilization, it is possible to achieve complete preservation of the activity of plasminogen during immobilization — to create drugs with a high capacity in relation to plasminogen to provide the body with a thrombolytic agent in the case of dehydration; Tselena5travlenr create drugs preprepary with the given properties n 5 the number of immobilized plasminogen and activity.

This method can be used for medical purposes to create drugs of thrombolytic effect.

In contrast to covalent bonding, immobilization of plasminigen is sorbed on the basis of natural cyrspecific affinity, which makes it possible to obtain drugs with adjustable ability to be activated in plasmas.

Claims (2)

1.HasaakI Horoi.Nobuo Aoki Isolation and Characterization of "SjPI InhIЫtor from Human Plasma, Joftrnaf of Bfotogical Chemlctry, 0 1376, V, 25t, p. 5956-5965. 2. KUDINOV. C.A., Eretska, E.V.Plasminogen activation with itsFlobilization. Ukrainian Biochemical Journal. T. 51 1979, 4, pp.340-344.