ИММУНОПАТОЛОГИЯ, ОБУСЛОВЛЕННАЯ АТИПИЧНЫМИ МИКОБАКТЕРИЯМИ MYCOBACTERIUM AVIUM

Иммунопатология, обусловленная атипичными микобактериями Mycobacterium avium.

1. Блум Б.Р. Ред. Туберкулез. Патогенез, защита и контроль // Москва. Медицина. 2002.

2. Оттен Т.Ф., Макроусов И.В., Нарвская О.В., Вишневская Б.И. Возможности и перспективы бактериологической диагностики микобактериоза // Проблемы туберкулеза и других заболеваний легких. — 2004. — № 6. — С.32–35.

3. Оттен Т.Ф., Войтова Д.И., Зайцева А.В., Соловьева Н.С. Деструктивные поражения легочной ткани, вызванные нетуберкулезными микобактериями // Проблемы туберкулеза и других заболеваний легких. — 2004. — № 9. — С.9–16.

4. Barrow W.W., Davis T.L., Wright E.L., Labrousse V., Bachelet M., Rastogi N. Immunomodulatory spectrum of lipids assotiated with Mycobacterium avium serovar 8 // Infect. Immun. — 1995, V.63., P.126–133.

5. Brennan P.J., Souhrada M., Ullom B.,McGlatchy J.K., Gorden M.B. Identification of atypical mycobacteria by thin–layer chromatography of their surface antigens. // J. Clin. Microbiol. — 1978. V.8., P. 374–379.

6. Chein J., Jones R., Crowley M.R. Recognition by γδ–T cell. // Ann. Rev. Immunol. — 1996., V. 14., P. 551532.

7. Ehlers S., Benini J., Held H.D., Roech C., Alber G., Uhling S. αβ T cell receptor–positive cells and interferon–γ, but not inducible nitric oxide syntetase, are critical for granuloma pulmonary immunopathology // J. Exp. Med. — 2001., V.194., P. 1847–1859.

8. Fueiwara N. Distribution of antigenic glycolipids among Mycobacterium avium strains and their contribution to virulence // Kekkaku. — 1997., V.72., P.193205 (Medline abstract).

9. Griffith D.E. Nontuberculous mycobacteria // Curr. Opinion Pulm. Med. — 1997., V.3., P 139–145. 10. Heifits L. Mycobacterial infections caused by nontuberculous mycobacteria // Sem. Respir. Crit. Care Med. // 2004., V.25., P. 283–295.

10. Horgen L., Barrow E.L., Barrow W.W., Rastogi N. Exposure of human peripheral blood mononuclear cells to total lipids and serovar–specific glycolipids from Mycobacterium avium serovar 4 and 8 results in inhibition of Th–1–type response.

11. Kelly A.P., Monaco J.J., Cho S.G,m Trowsdale J. A new human HLA class II–related locus D. // Nature., 1991., V. 353., P.571.

12. Lee H., Park H.J., Cho S.N., Bai G.H., Kim S.J. Species identification of mycobacteria by PCR–registration fragment length polymorphism of the rpoB gene // J. Clin. Microbiol. — 2000., V. 38., P. 2966–2971.

13. Lyadova I.V., Eruslanov E.B., Yeremeev V.V., Majorov K.B., Niconenko B.V., Pichugin A.V., Khaidukov S.V., Kondratieva T.K., Apt A.S. Comparative analysis of T lymphocytes recovered from the lungs of mice genetically susceptible resistant and hyperresistant to Mycobacterium tuberculosis–triggered disease // J.Immunol. — 2000., V. 165., P. 5921–5931.

14. Mannering S.I., Cheers C. Interleukin–2 and loss of immunity in experimental Mycobacterium avium infection // Infect. Immun. — 2002., V. 70., P. 27–35.

15. Marras T.K., Daley C.L. Epidemiology of human pulmonary infection wiyh nontuberculous mycobacteria // Clin. Chest Med. — 2002., V. 23. P. 553–567.

16. Martin E., Kamath A.T., Triccas J.A., Britton W.J. Protection against virulent Mycobacterium avium infection follovwing DNA vaccination with the 35kilodalton antigen is accompanied by induction of gamma interferon–secreting CD4+ T cells // Infect. Immune. 2000., V. 68., P. 3090–3096.

17. Minami H. Promotion of phagocytosis and prevention of phagosome–lysosom fusion in human peripheral blood monocytes by serotype specific glycopeptidolipid (GPL) antigen of Mycobacterium avium complex (MAC) // Kekkaku 1998., V. 73., P. 545–556 (Medline abstract).

18. Neefjes J. CIIV, MHC and other compartmens of MHC class II loading // Eur. J. Immunol. — 1999., V. 29., P. 1421–1438.

19. Orm I.M., Stokes R.W., Collins F.M. Genetic control of natural resistance to nontuberculous mycobacterial infections in mice // Infect. Immun. — 1986.., V. 54., P 56–62.

20. Saunders B.M., Frank A.A., Cooper A.M., Orm I.M. Role of γδ T cells in immunopathology of pulmonary Mycobacterium avium infection in mice // Infect. Immun. — 1998., V.66., P. 5508–5514.

21. Stokes R.W., Collins F.M. Growth of Mycobacterium avium in activated macrophages harversted from inbred mice with differing innate susceptibilities to mycobacterial infection // Infect. Immun. — 1988., V. 56., P. 2250–2254.

22. Triccas J.A., Winter N., Roche P.W., Kendrick K.E.,Britton W. Molecular and immunological analyses of Mycobacterium avium homolog of the immunodominant Mycobacterium Leprae 35–kilodalton protein //Infect. Immun. — 1998., V.66., P. 2684–2690.

23. Ullrich H.J., Beathy W.L., Russell D.G. Interaction of Mycobacterium avium–containig phagosomes with the antigen presentation pathway // J. Immunol. 2000., V.165., P. 6073–6989.

24. Wallace R.J., Glassroth J., Griffith D.E., Oliver K.N., Cook J.J., Cordin F. Diagnosis and treatment of disease caused by nontuberculous mycobacteria // Am. J. Respir. Crit. Care Med. — 1997., V. 156. P. 1–25.

25. Yeremeev V.V., Lyadova I.V., Nikonenko B.V., Apt A.S., Abou–Zeid C., Inwald J., Young D/B/ The 19 kD antigen and protective immunity in a murine model of tuberculosis // Clin. Exp. Immunol. — 2000., V. 120., P. 274–279.