Method of producing lipoarabinomannan possessing antitumoral activity

专利摘要:
Disclosed is a novel immunotherapeutic agent for tumors, which comprises as an active component a lipopolysaccharide derived from human tubercle bacillus or a lipopolysaccharide formed by chemically modifying said lipopolysaccharide.
公开号:SU1232124A3
申请号:SU802943651
申请日:1980-07-03
公开日:1986-05-15
发明作者:Маруяма Чизато
申请人:Jp；
IPC主号:

专利说明:


This invention relates to medicine and relates to the preparation of a medicament.
The aim of the invention is to obtain a lipoarabinomannan having antitumor activity, as well as to increase the immunological activity of the target product.
The method is illustrated by the following examples.
Example 1, Southon medium is seeded with Mycobacterium tuberculosis Aoyama strain and aerobic cultivation lasts 14 days. Cell bodies are separated by filtration and washed with cold water, after which distilled water is added to float (float) the cell in water. The cell suspension is heated at 100 s for 120 min and filtered to obtain an aqueous solution of the extract of cell bodies. Sulfosalicylic acid is added to the solution to precipitate the protein component, after which the solution is centrifuged to separate it. The supernatant is dialyzed using a dialysis membrane, the resulting liquid is mixed with 9 parts by volume of ethyl alcohol, the resulting mixture is separated by centrifugation, and then the precipitated crude lipopolysaccharide is separated.
Crude lipopolysaccharide is loaded with a B column packed with DEAE-Sephadex i A-25 (bicarbonate form) and collecting the fraction, zyluirovanny distilled water. This fraction is concentrated and mixed with an equal amount of ethyl alcohol and the mixture is separated by centrifugation. The supernatant is concentrated and sieved by molecular sieving according to high performance liquid chromatography using a column packed with TSK Gel 4000 SW, TSK Gel 3000 SW and TSK Gel 2000 SW, while collecting a fraction with a molecular weight from 10,000 to 160,000. This fraction is dialyzed, concentrated and then purified by affinity chromatography; using concavalin A-coupled agarose to obtain purified lipopolysaccharide. Lipopolysaccharide consists of 61% arabinose, 38% maniosis and 1% glucose, and contains fatty acids: methyl laurate, methyl myristate, methide palmitate, methyl gentecanoate, methyl
5 0 5 o
five
0
five
five
0
124-2
stearate, methyl oleate, methyl tuberculostearate (150.7 μg in total),
The structure of the saccharide chain is presented in table. one.
Example 2: Mycohacterium tuberculosis strain H R, cultured and then treated with biomass according to Example 1. After purification, a lipopolysaccharide consisting of 56% arabinose and 44% mannose is obtained; contains fatty acids: methyl laurate, methyl myristate, methyl palmitate, methyl heptadecanoate, methyl stearate, methyl tuberculostearate (total 79.6 μg).
The structure of the saccharide chain is presented in table. 2
Example 3. A method for producing a lipoarabin mannan from lipid-free arabinomannan.
The biomass obtained in example 1, is extracted with alkali 1 N. NaOH at room temperature and by molecular sieving is obtained in arabinomannan with a molecular weight from 8500 to 14000. The resulting arabinomannan is further purified by affinity chromatography, dried and 10 mg of dry arabinomannan, reacted with 10 mg of palmitic anhydride at 50 ° C for 20 h in N, N-dimethylformamide pyriridine. Ethyl ether is added to the reaction mixture, and the precipitate is separated by centrifugation, washed with ethyl ether, and dried to obtain 11 mg of lipoarabin mannan.
The structure of the saccharide chain is similar to the preparation of Example 1. Palmitic acid is mainly associated with the 5 position of the arabinose unit in the arabinomannan chain in the amount of 9.8% by weight and the average molecular weight is more than 12,500.
Example 4. The biomass obtained in example 2 is extracted with alkali 1 N. NaOH at room temperature, is purified by arabinomannan according to example 3. 10 g of dry arabinomannan is reacted with 8 ml of palmitol chloride at 37 ° C for 16 h using as a solvent a mixture of pyridine with N, N-dimethylformamide, K the mixture is added with ethanol and the precipitate is separated by centrifugation, washed with ethyl ether and dried, resulting in 10 mg of lipoarabin mannan.
The structure of the saccharide chain of a substance is similar to that obtained in Example 2. Palmitic acid is mainly associated with the arabinose link in the arabinomannanan chain in semi 5 in an amount of about 7.6 wt% and the average molecular weight is 12000.
Example 5. 5mg arabinomannan, the fatty acid content in which is about 3% and which is obtained by the method similar to example 1, is sonicated with 10 mg of palmitoyl chloride in pyridine and the reaction is carried out at 37 ° C for 18 hours ethyl alcohol is added, the precipitate is collected, washed with ethyl ether and dried to obtain 4.3 mg of lipoarabinomannan,
The analysis shows that palmitic acid is mainly associated with the 5 position of the arabinose unit and the 6 position of the mannose unit in the arabinomannan chain in an amount of about 28 wt.% And an average molecular weight of about 14,000.
Lipoarabinomann, obtained according to examples 3 and 5, can also be obtained by using a lipid-free or low-lipid arabinomannan, extracted and purified from Mycobacterium tubercu2, 3,5-Tri-0-methyl-0-Arabinose cell bodies
2, 3-Di-O-metip-B-arabinose
3,5-di-0-methyl-P-arabinose
2-0-Methyl-V-arabinose
2,3, A, 6-Tetra-O-methyl-D-mannea
3,4,6-Three-0-methyl-P-mannose
2,3,4-tri-0-methyl-0-mannoa
3,4-Di-0-methyl-1-mannose General



then palmitic acid in examples 3 and 5 can be used stearic acid.
The following examples illustrate the antitumor activity of arabinomannan. .
Example 6. Cells (1x10) of Sarcoma-180 tumor were subcutaneously transplanted with dd-Y mice (females, 10 weeks old), which were sensitized with BCG. Starting from the next day, lipoarabinomannan, dissolved sterile in physiological saline, is administered subcutaneously to groups of mice (each group consists of 8 mice) in an amount from 0.2 to 2.0 µg per mouse every other day, 8 times in total. In 30 days after transplantation of the tumor cells of the test animals, they are sacrificed and the weight of the tumor is measured. The antitumor activity of each lipoarabinmannan is evaluated based on measurement of tumor weight. The solution for injection is prepared as follows.
1 mg of lipopolysaccharide gat solution in an appropriate amount of saline for injection to form 100 mp solution. The solution is prepared in the form for subcutaneous injections containing 10 µg / ml of lipopolysaccharide. This solution is injected subcutaneously 1-3 times (10-30 µg of lipopolysaccharide) per week.
Side effects when using



6.2
A 1.0
7.2 59.51 5.1
12.8 6.1
7.2 40.5X 1A, A
100
Editor Y. Sereda
Compiled by G. Smirnova
Tehred V. Kadar Corrector. Cherni
Order 2664/60 Circulation 660 Subscription
VNIIPI USSR State Committee
for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab., 4/5
Production and printing company, Uzhgorod, st. Project, 4
table 2

权利要求:
Claims (2)
[1]
1. A METHOD FOR PRODUCING ANTI-TUMOR LIPOARABINOMANNANANE, which consists in extracting the biomass of Mycobacteruim tuberculosis strain Aoyama or H ^ RV with water at 100 ° C, followed by isolation and purification of the target product.
[2]
2. The method according to claim 1, characterized in that, in order to increase the immunological activity of the target product, the latter is esterified with a fatty acid, for example palmitic.
123212 ί

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法律状态:

优先权:

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申请号 | 申请日 | 专利标题

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JP54084681A|JPS6256843B2|1979-07-04|1979-07-04|

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