RU2112543C1 - Immunomodulating drug - Google Patents

Abstract

FIELD: medicine, immunology. SUBSTANCE: invention proposes a preparation that is a modified BCG. Preparation is a specific immunomodulating agent containing extract from tuberculosis mycobacteria of vaccine strain BCG complexed with polyoxydonium - synthetic immunostimulating agent taken at ratio (1:30)-(1:120). Combination of this preparation with conventional antituberculosis chemotherapy enhances effectiveness of the latter due to recovery of impaired indices of immunity T-link: amount of T-lymphocyte-killers, ratio of T-helpers/T-suppressors, proliferative activity of T-lymphocytes in vitro, phagocyte activity of macrophages and mean span of life of treated mice as compared with nontreated ones or treated with antituberculosis chemotherapy only. EFFECT: enhanced effectiveness of drug. 2 tbl

Description

 The invention relates to medicine, in particular immunotherapy, especially for the treatment of tuberculosis patients.

 Currently, for the treatment of patients with pulmonary tuberculosis, especially with severe secondary immunodeficiency, to increase the effectiveness of standard anti-tuberculosis chemotherapy, immunostimulating agents are used that partially normalize some reduced immunological parameters and increase the effectiveness of treatment.

In these cases, the following immunostimulants are used:
1) synthetic - diutsifon, levomizole, sodium nucleonate, etc. [3, 6, 7];
2) substances isolated from thymus - thymoline, T-activin, thymactin, etc. [1, 2];
3) substances isolated from bacteria - ribomunyl [3, 4, 5].

 In addition, to increase the effectiveness of chemotherapy for pulmonary tuberculosis, methods of specific pathogenetic therapy are also used by using tuberculin or BCG vaccine, also based on taking into account the specific reactivity of the organism of patients with pulmonary tuberculosis.

 However, individual tuberculin and BCG therapy are more easily tolerated by patients at an early stage of the disease. Whereas with progressive pulmonary tuberculosis, as well as in the presence of severe forms of concomitant diseases with impaired function of the cardiovascular system, liver, and kidneys, the use of this specific therapy is contraindicated.

 The use of the above drugs in both newly diagnosed patients and patients with chronic pulmonary tuberculosis increased the effectiveness of complex treatment compared with the group of patients who received only chemotherapy. Partially normalized indicators of the immunological status of patients. However, indicators such as the percentage of T-lymphocytes (T3DM), proliferative activity of T-lymphocytes to phytohemagglutinin (PHA), in the blast transformation reaction (RBT) and the ratio of lymphocyte subpopulations to T-helper cells: T-suppressors (T4: T8), having important in anti-tuberculosis immunity, remained at initially low levels. All this necessitated the search for new immunostimulants derived from tuberculous mycobacteria.

 In earlier years, the role of ribosomal material [3], as well as the cell walls of tuberculous mycobacteria in protecting mice from tuberculosis was shown [10, 11].

 In recent years, antigenic preparations having a pronounced protective effect on the course of the tuberculosis process in mice have been obtained from mycobacteria of the BCG vaccine strain [4, 5].

 In this regard, an immunomodulating preparation is proposed, which consists of the cytoplasm and ribosomes of mycobacteria of the BCG vaccine strain, complexed with a synthetic polymer of adjuvant action - polyoxidonium (CP - BCG).

 The drug Ribomunil, which is a total ribosomal preparation obtained from bacteria that cause pathology of the upper respiratory tract, such as klebsiella pneumania, Diplococcus pneumonia, streptococcus pyogenes, Haemophilus influenzac and membrane protogooglypan klebsiella pneumonia [9], was taken as a prototype.

 This drug has been successfully used in the treatment of patients with chronic diseases of the upper respiratory tract, and in recent years in the experiment and in the clinic for patients with pulmonary tuberculosis in combination therapy with anti-TB drugs [11].

 However, the prototype does not contain compounds isolated from tuberculous mycobacteria, as a result of which it cannot fully help in normalizing the altered indicators of anti-tuberculosis immunity.

 The proposed drug CP-BCG, in addition to the general immunostimulating effect, has a specifically directed stimulating effect on the main parameters of the immune system of a patient with tuberculosis and dramatically increases the effectiveness of anti-tuberculosis therapy.

 A specific part of the preparation, cytoplasmic and ribosomal materials, was obtained as a result of differential ultracentrifugation of the destroyed culture of mycobacteria of the BCG vaccine strain and was standardized by their protein content.

 The immunostimulating carrier, polyoxidonium, has been studied in detail and approved for use in the amount of 3 mg and 6 mg for the 1st injection (V.F.S. 42-27-27-96). Both substances that make up the drug are interconnected by donor-acceptor bonds in a single complex.

 The results of an experimental clinical trial of the drug allow us to recommend the drug CP-BCG for the treatment of patients with pulmonary tuberculosis.

 2 experiments were carried out on mice of the CBA line of males weighing 20 g of 15-20 animals per group.

 We studied 7 groups of mice infected with a virulent culture of tuberculous mycobacteria H37Rv at a dose of 0.025 μg per mouse, and 2 groups of healthy non-infected mice.

 The toxic effect of CP-BCG has been studied in healthy mice. Single intravenous administration as test doses: 0.01; 0.05; 0.5; 5; 50 μg of protein, as well as large doses up to a maximum of 100, 200, 500, 1000 and 2000 μg of protein, did not cause the death of any animal. The mice remained alive during the entire observation time - up to a month.

 The drug was administered to mice subcutaneously in the hind leg 2 weeks after infection against the background of already formed tuberculosis 2 times a week for 2 weeks (2x2 scheme), both independently (see Table 1), and in combination with anti-tuberculosis chemotherapy ( see table 2).

 Healthy animals received a similar treatment, and the day after the cessation of therapy, a pathomorphological study of the liver, lungs, spleen and lymph nodes was performed for toxic and immunostimulating effects at the cellular level.

 As a result, of all the doses of the drug taken for the study, only doses containing 0.5 μg, 0.05 μg and 0.01 μg of protein did not cause dystrophic changes in the cytoplasm of liver cells. Whereas higher doses of the drug caused a dose-dependent toxic effect: protein dystrophy of the hepatocyte cytoplasm, perivascular edema and increased vascular permeability.

 The allergenic effect of the drug CP-BCG was not detected. 4-times subcutaneous administration to a healthy mouse in doses of 0.5; 0.05 and 0.01 μg of the protein according to the scheme (2x2) did not cause anaphylactic type reactions in either case, either immediately or after 12, 24 and 48 hours. Autoantibodies to DNA collagen, connective tissue, total mislin protein, lung tissues , liver, kidneys (commercial enzyme immunoassay test systems) were not identified.

 Anaphylactic and tuberculin properties of the drug CP-BCG, as an antigen inducing this action in the above doses with iv administration to the guinea pigs with a sensitized BCG vaccine, were not detected.

 The drug does not have a carcinogenic effect, since it is known that the BCG mycobacteria from which it is prepared are used to treat malignant tumors.

 The teratogenic properties of the drug CP-BCG are also absent, since the BCG vaccine has been used for many years to vaccinate children and adults.

 The immunomodulatory effect of the drug CP-BCG at a dose of 0.05 and 0.01 μg of protein with subcutaneous administration 2 times a week for 2 weeks is as follows.

 1. Increases the phagocytic activity of macrophages.

 2. Restores impaired T-link of the immune system.

 3. Restores the number of killer T-lymphocytes and normalizes the ratio of T-bakers / T-suppressors.

 4. Restores the proliferative activity of T-lymphocytes in vitro (RBT).

 5. Significantly, statistically significantly increases the average survival of tuberculosis patients in mice treated both independently and especially in combination with standard anti-tuberculosis chemotherapy compared to control, untreated animals.

 1. The phagocytic activity of macrophages 4 weeks after infection in mice of the control group (without treatment) was sharply reduced. The percentage of phagocytic cells (PFC) was 52%, and the phagocytic number (FG) was 1-2 cells.

 In the group of mice that received the drug at a dose of 0.01 μg, which caused the greatest immunostimulating effect, these indicators were close to normal: PFC = 64% (N = 70%), PS = 2.5-3 cells (N = 3-4 cells )

 In the terminal period, control PFCs became even lower - 35%, and the PS was 0.3 cells.

 In the same period, in mice treated with the drug, these indicators were much higher: 57% and 2 cells, respectively.

 Thus, the introduction of CP-BCG mice with tuberculosis mice at a dose of 0.01 μg of protein per 2x2 injection significantly increased the functional activity of macrophages of peritoneal exudate compared with the control - sick animals without treatment.

 2-3. When studying the content of T and B lymphocytes and their subpopulation in the spleen of mice, it was revealed that their percentage in sick mice in the control was changed: CD3 = 33%, with the norm in healthy mice N = 35%, of which CD4 = 26% ( at N - 24%), SD8 - 7% (at N = 12%) and due to this, the SD4 / SD8 index was sharply overestimated and amounted to 4.5: 1 (at N = 2: 1).

 The number of B-lymphocytes (TJg) was increased and amounted to 65% at N = 60%. So at the peak of tuberculosis infection, the main parameters of tuberculosis immunity were unbalanced.

 The administration to mice of the drug CP-BCG at a dose of 0.01 μg of protein according to the (2x2) scheme had a positive effect on these indicators, which did not differ much from the norm and were equal: CD3 = 34%, CD4 = 23%, CD8 = 11%, CD4 / SD8 = 2: 1, TJg = 59%. In mice, there was an increase in CD8 - killer T-lymphocytes with a cytotoxic effect and, accordingly, a decrease and normalization of the CD4 / CD8 index, a decrease in T-lymphocytes, helper-producing antibodies and, accordingly, B-lymphocytes, the number of which was normalized.

 Thus, the preparation of CP-BCG in the optimal dose of 0.01 μg is an active anti-tuberculosis modulator: it stimulates and restores the number of T-lymphocytes of the cytotoxic effect, without increasing the population of lymphocytes - antibody producers, thereby restoring the impaired T-link of the immune system.

 4. The proliferation indices of T-lymphocytes for PHA in RBT in all groups of infected mice treated with CP-BCG were statistically significantly higher than in the control during the death of animals in this group (Table 1).

 It should be noted that skin samples from control mice were absent during this period. In mice treated with the drug, tuberculin tests were detected quite clearly, which indicates a high response of the T-link of tuberculosis immunity.

 The average life expectancy in groups with CP-BCG was statistically significantly higher than in the control (p <0.05) (Table 1). Moreover, the difference in the 4, 5, 6 and 7 groups compared with the control was within 20 days. The survival rate of mice in these groups was also high 65-78%.

 Thus, the results obtained in assessing the immunomodulating effect of the CP-BCG preparation made it possible to select two doses: 0.01 μg and 0.05 μg of protein, which have the most pronounced immunostimulating effect and do not have a toxic-allergic effect on the body of mice.

 In a second experiment on mice infected with tuberculosis, the effectiveness of the selected dose of 0.01 μg of the protein of the drug CP-BCG was studied in combination with conventional anti-tuberculosis chemotherapy in the clinic: streptomycin - 125 mg per 1 kg of body weight and isoniazid - 10 mg per 1 kg of body weight, as well as 2 regimens treatment.

There were 4 groups of mice:
Group 1 - mice received CP-BCG 2 times a week for 2 weeks (according to the 2x2 scheme) in combination with chemotherapy;
Group 2 - mice received CP-BCG 1 time per week for 3 weeks (according to the 1x3 scheme) together with chemotherapy;
Group 3 - mice were treated with chemotherapy for 3 weeks;
4 group - control - sick mice without treatment.

 After discontinuation of treatment, immunological parameters were examined in mice one day later and left for survival. As can be seen from the table. 2, the preparation of CP-BCG at a dose of 0.01 μg of protein together with standard chemotherapy in the regimen of 1 time for 3 weeks was the greatest therapeutic success (the mice lived 38 days longer than the control and 14 days longer than the mice receiving only anti-tuberculosis therapy), as well as higher stimulation of T-immunity parameters.

 Based on experimental and clinical studies, a preparation was proposed that was obtained from mycobacterium tuberculosis of the BCG vaccine strain in combination with a synthetic immunostimulant - polyoxidonium, the introduction of which at a dose of 0.01-0.05 μg protein normalizes the main parameters of anti-tuberculosis immunity in the body of sick mice, while without causing any toxic-allergic and other negative reactions. This drug can be successfully used in a clinic for the treatment of patients with pulmonary tuberculosis.

 The dose of the drug in terms of 1 kg of weight - 0.500-2.5 μg for an adult weighing 70 kg should be 35-175 μg per 1 injection.

 Recommendation for administration: subcutaneously in the shoulder area 1 time per week for 4 weeks.

The drug is recommended for the appointment:
1. For the first time identified and previously treated patients with active pulmonary tuberculosis, in whom an immunological examination revealed a sharp decrease in the number and functional activity of T-lymphocytes, as well as in an imbalance of subpopulations of lymphocytes of T-helper cells and T-suppressors.

 2. With a delayed clinical and radiological regression of tuberculous changes in the lungs and the simultaneous presence of a decrease in the above signs of the T-link of immunity.

 Method of application and dosage for the purpose of treatment.

 The drug CP-BCG is prescribed to patients in the form of subcutaneous injections into the outer surface of the shoulder at a dose of 35 μg of protein in a volume of 1 ml. In the absence of an allergic reaction after 1 day, the entire course of treatment is carried out.

 The drug CP-BCG is administered to patients 1 time per week for 4 weeks. Then it is necessary to conduct an immunological examination. In case of maintaining a low level of the above indicators or their further violation, it is necessary to repeat the course of treatment with the drug. The second course must be carried out in full, as described, but not earlier than 2 weeks later. The drug is pre-diluted in 1 ml of saline with a syringe in compliance with the rules of asepsis and antiseptics.

 Reaction to the introduction: a slight skin allergic reaction is possible.

 Contraindications: contraindicated for pregnant and hemotological patients.

 Release form: bottles folded with a dry preparation. 1 vial contains 1 working dose (0.035-0.175 mg of protein in the cytoplasm and 3-6 mg of polyoxidonium). Bottles are packed in cardboard boxes.

Shelf life 1 year, store at 4 ^o C.

 Clinical example. Patient E., 28 years old, was admitted to the 1995 Central Research Institute of Physics with a diagnosis of infiltrative pulmonary tuberculosis with decay, mycobacterium tuberculosis were present in large quantities in the contents of the bronchi. X-ray in the left in the upper lobe was determined periciseuritis type infiltrate with a fuzzy upper border. Against the background of infiltration, multiple decay cavities were determined. An immunological blood test revealed immunodeficiency, manifested in a decrease in the SD4 / SD8 index of 1.08, a decrease in CD3 of cells of 50%, an RBT with PHA of 53%, a sharp increase in TJg of 36%.

 Against the background of chemotherapy for 4 months, pyrazinamide 1.5 g, rifampicin 0.45 g, ethambutol 1.2 g per day, a slow reverse development of the process was obtained; symptoms of intoxication disappeared, bacterial excretion ceased, however, resorption of focal and infiltrative changes was slow.

 Immunological parameters remained almost unchanged, the amount of TJg 29% decreased only slightly.

 CP-BCG was administered voluntarily at a dose of 0.035 mg and 1 mg 4 times during the 5th month of the disease (1 injection subcutaneously in the shoulder area) together with chemotherapy. After 5.5 months, active resorption of focal and infiltrative changes, closure of decay cavities, and normalization of immunological parameters were observed radiographically: CD3 60%; TJg 20%; SD4 / SD8 1.7; RBT with PHA 63%.

 The patient was discharged for outpatient treatment.

Sources of information
1. Arion V.Ya. book: Results of science and technology. Series: Immunology. 1982. T.Yu. from. 45-53.

 2. Arion V. Ya., Ivanushkin E.F. Principles of immunocorrective therapy with thymus drug T-activin. Surgery, 1984, N 11, p. 23-26.

 3. Baranova T.V. The role of Na nucleinate in the complex treatment of patients with pulmonary tuberculosis: Abstract diss. Cand. honey. Sciences.- M .: 1986.

 4. Romanova R.Yu. Immunological analysis and antigenic properties of surface proteins of BCG mycobacteria. Sat Proceedings "Actual issues of laboratory diagnosis of tuberculosis in an experiment and clinic." - M .: 1989, v. III, p. 122-126.

 5. Romanova R. Yu. Immunogenic properties and diagnostic value of BCG mycobacterial antigens: Abstract of diss. Doctors of biological sciences. M .: 1991.

 6. Khomenko A.G., Insanov A.B. Immunochemotherapy with levamisole and ducifon in the complex treatment of patients with chronic destructive pulmonary tuberculosis. Prob. tub. 1984. N 9, p. 15-18.

 7. Khomenko A.G., Insanov A.B. The effectiveness of antibiotic therapy in combination with levamisole and diutsifon destructive pulmonary tuberculosis in the experiment. Prob. tub. 1984. N 4, p. 55-59.

 8. Khomenko I. S. The course of destructive pulmonary tuberculosis in patients with immunodeficiency. Abstract of diss. Doct. honey. sciences. M .: 1983.

 9. Dussourd D'Hinterland U., Serre H. Preparation de vaccins a base de fractions ribosomales antigenigues. Brevet Pierre Fabre S.A. 1973, N 73, p. 439-457.

 10. Youmans A. S., Youmans G.P. Immunogenic activity of a ribosomal fraction obtained from M. tuberculosis. Journ Bacteriol. 1965. 1989, p. 1291-1298.

 11. Youmans A.S., Youmans G.P. Immunogenic Mycjbacterial ribosomal and ribonucleic acid preparation. Chemical and physical characteristics. Infect. and Immunity. 1970. N 2, p. 659-668.

Claims (1)

 A drug is a specific immunomodulator, which is a compound consisting of a specific antigenic complex and a synthetic immunostimulant, characterized in that the material of the cytoplasm and ribosomes of the mycobacteria of the BCG vaccine strain is used as a specific antigenic complex, and Polyoxidonium in the ratio Mycobacterial protein is used as an immunostimulant from 1:30 to 1: 120.

Images