OPSONIZING PROPERTIES OF A COMMERCIAL ANTISTAPHYLOCOCCAL IMMUNOGLOBULIN

Abstract. Antistaphylococcal immunoglobulins (ASIg) are widely used for treatment of staphylococcal infections. However, Russian literature sources still lack any evidence-based data justifying clinical efficiency of this preparation. Taking into account a key role of phagocytosis for a macro-organism resistance to staphylococci, and importance of microbial opsonization in this response, a trial of antistaphylococcal immunoglobulinmediated opsonizing activity was performed with S. aureus Wood 46 and S. aureus Cowan I strains. A normal human Ig preparation was used as a reference substance. Both preparations influenced oxygen-dependent bactericidal effects of phagocytes to a similar degree. Normal immunoglobulin proved to be more active than ASIg, with respect to neutrophil ingestion properties and bacterial aggregation. Hence, present results, along with relevant data from Russian and foreign literature put in question the ASIg expediency for medication of staphylococcal infections.

antistaphylococcal immunoglobulin, normal immunoglobulin, S. aureus, opsonization, phagocytosis

1. Выгодчиков Г.В. Стафилококковые инфекции (микробиология, иммунология и эпидемиология). – M.: Медгиз, 1963. – 272 c.

2. Карницкая Н.В., Левина М.Н., Лукатос Е.А. Нормальный γ-глобулин человека как носитель специфических антистафилококковых антител // Препараты нормальных и специфических иммуноглобулинов человека. Сборник научных трудов Московского НИИ эпидемиологии и микробиологии. – 1975. – Т. XVIII. – C. 102-106.

3. Кленин В.И., Щеголев С.Ю., Лаврушин В.И. Характеристические функции светорассеяния дисперсных систем. – Изд-во Саратовского университета. – 1977. – 177 с.

4. Королевская Л.Б., Шмагель К.В. Спектротурбидиметрическое определение размера иммунных агрегатов сывороток крови, образованных в полиэтиленгликоле // Иммунология. – 2010. – № 2. – С. 108-111.

5. Пинегин Б.В., Ярилин А.А., Симонова А.В., Климова С.В, Мазуров Д.В, Дамбаева С.В., Бахус Г.О. Оценка поглотительной активности фагоцитов периферической крови человека // Применение проточной цитометрии для оценки функциональной активности иммунной системы человека. Пособие для врачей лаборантов. – М., 2001. – С. 31-35.

6. Слободчикова С.В., Шмагель К.В., Раев М.Б., Бахметьев Б.А. Влияние человеческого трофобластического β1-гликопротеина на стимулированную люминолзависимую хемилюминесценцию лейкоцитов // Российский иммунологический журнал. – 2009. – № 3 (12). – С. 338-342.

7. Aydogan M., Eifan A.O., Gocmen I., Ozdemir C., Bahceciler N.N., Barlan I.B. Clinical and Immunologic Features of Pediatric Patients With Common Variable Immunodeficiency and Respiratory Complications // J. Investig. Allergol. Clin. Immunol. – 2008. – Vol. 18, N 4. – P. 260-265.

8. Champion J.A., Walker A., Mitragotri S. Role of Particle Size in Phagocytosis of Polymeric Microspheres // Pharm. Res. – 2008. – Vol. 25, N 8. – P. 1815-1821.

9. DeLeo F.R., Diep B.A., Otto M. Host defense and pathogenesis in Staphylococcus aureus infections // Infect. Dis. Clin. North. Am. – 2009. – Vol. 23, N 1. – P. 17-34.

10. Dryla A., Prustomersky S., Gelbmann D., Hanner M., Bettinger E., Kocsis B., Kustos T., Henics T., Meinke A., Nagy E. Comparison of Antibody Repertoires against Staphylococcus aureus in Healthy Individuals and in Acutely Infected Patients // Clin. Diagn. Lab. Immunol. – 2005. – Vol. 12, N 3. – P. 387-398.

11. Durandy A., Kaveri S.V., Kuijpers T.W., Basta M., Miescher S., Ravetch J.V., Rieben R. Intravenous immunoglobulins – understanding properties and mechanisms // Clinical and Experimental Immunology. – 2009. – Vol. 158. – P. 2-13.

12. Garcıa-Garcıa E., Rosales C. Signal transduction during Fc receptor-mediated phagocytosis // J. Leukoc. Biol. – 2002. – Vol. 72. – P. 1092-1108.

13. Ishikawa Y., Muramatsu N., Ohshima H., Kondo T. Effect of particle size on phagocytosis of latex particles by guinea-pig polymorphonuclear leucocytes // J. Biomater. Sci. Polym. Ed. – 1991. – N 2 (1). – P. 53-60.

14. Iwatsuki K., Yamasaki O., Morizane S., Oono T. Staphylococcal cutaneous infections: Invasion, evasion and aggression // Journal of Dermatological Science. – 2006. – Vol. 42. – P. 203-214.

15. Kelly J. Immunotherapy against antibioticresistant bacteria: the Russian experience with an antistaphylococcal hyperimmune plasma and immunoglobulin // Microbes and Infection. – 2000. – N 2. – P. 1383-1392.

16. Kluytmans J., Belkum van A., Verbrugh H. Nasal carriage of Staphylococcus aureus: epidemiology, underlying mechanisms, and associatedrisks // Clin. Microbiol. Rev. – 1997. – Vol. 10, N 3. – P. 505-520.

17. Lekstrom-Himes J.A., Gallin J.I. Immunodeficiency diseases caused by defects in phagocytes // The New England Journal of Medicine. – 2000. – Vol. 343, N 23. – P. 1703-1714.

18. Middleton J.R. Staphylococcus aureus antigens and challenges in vaccine development // Expert Rev. Vaccines. – 2008. – Vol. 7, N 6. – P. 805-815.

19. Molne L., Verdrengh M., Tarkowski A. Role of neutrophil leukocytes in cutaneous infection caused by Staphylococcus aureus // Infection and immunity. – 2000. – Vol. 68, N 11. – P. 6162-6167.

20. Pease L.F., Elliott J.T., Tsai D.H., Zachariah M.R., Tarlov M.J. Determination of Protein Aggregation With Differential Mobility Analysis: Application to IgG Antibody // Biotechnol. Bioeng. – 2008. – Vol. 101. – P. 1214-1222.

21. Pross H., Eidinger D. In vitro Stuides of ‘Antigenic Competition’ II. Reconstitution of the immune defect and the relationship between antigeninduced supression and non-specific enhancement // lmmunology. – 1973. – Vol. 25. – P. 269.

22. Quie P.G., Cates K.L. Clinical conditions associated with defective polymorphonuclear leukocyte chemotaxis // Am. J. Pathol. – 1977. – Vol. 88, N 3. – P. 711-725.

23. Singh B.R., Chandra M., Agrawal R.K., Nagrajan B. Antigenic competition among different ‘O’ antigens of Salmonella enterica subspecies enterica serovars during hyperimmunization in pony mares // Indian. J. Exp. Biol. – 2006. – Vol. 44, N 12. – P. 1022-1025.

24. Yamada S. Chemiluminescence response of human phagocytes against IgG-opsonized staphylococci with and without protein A activities // Microbiol. Immunol. – 1990. – Vol. 34, N 3. – P. 221-229.