Природные каталитически активные антитела при вирусных и бактериальных инфекциях
Диссертация
Каталитически активные антитела (абзимы) обнаружены при ряде аутоиммунных заболеваний (системная красная волчанка (СКВ), рассеянный склероз (РС), тиреоидит Хашимото (АИТ) и др.). Исследования показали, что абзимы из крови таких больных являются не только маркерами аутоиммунных процессов, но также играют роль в патогенезе болезни. В то же время кровь здоровых доноров или больных с незначительными… Читать ещё >
Список литературы
- Shuster A.M., Gololobov G.V., Kvashuk О.A., Bogomolova A.E., Smirnov I.V., Gabibov A.G. DNA hydrolyzing autoantibodies // Science. 1992. — V. 256. — P. 665−667.
- Li L., Paul S., Tyutyulkova S., Kazatchkine M.D., Kaveri S. Catalytic activity of anti-thyroglobulin antibodies // J. Immunol. 1995. — V. 154. — P. 3328−3332.
- Ji Q., Perchellet A., Goverman J.M. Viral infection triggers central nervous system autoimmunity via activation of CD8+ T cells expressing dual TCRs // Nat. Immunol. 2010. -V. 11.-P. 628−634.
- Jadali Z., Alavian S.M. Autoimmune diseases co-existing with hepatitis С virus infection // Iranian journal of allergy, asthma and immunology. 2010. — V. 9. — P. 191−206.
- Cacoub P., Terrier B. Hepatitis B-related autoimmune manifestations // Rheum. Dis. Clin. North. Am. 2009. — V. 35. — P. 125−137.
- Stratton R., Slapak G., Mahungu Т., Kinloch-de Loes S. Autoimmunity and HIV // Curr. Opin. Infec. t Dis. 2009. — V. 22. — P. 49−56.
- Одинцова E.C., Харитонова M.A., Барановский А. Г., Сизякина Л. П., Бунева В. Н., Невинский Г. А. Протеолитическая активность IgG антител из крови больных синдромом приобретенного иммунодефицита человека // Биохимия. 2006. — Т. 71(3). — С. 320−332.
- Барановский А.Г., Матюшин В. Г., Власов А. В., Забара В. Г., Наумов В. А., Жьеже Р., Бунева В. Н., Невинский Г. А., ДНК- и РНК- гидролизующие антитела из крови больных различными формами вирусного гепатита // Биохимия. — 1997. Т. 62 (12). — С. 15 901 599.
- Nevinsky G.A., Buneva V.N. Natural catalytic antibodies in norm, autoimmune, viral, and bacterial diseases // Scientific World Journal. 2010. — V. 10. — P. 1203−1233.
- Хаитов P.M., Игнатьева Г. А., Сидорович И. Г. Иммунология. М.: Медицина, 2000.
- Мейл Д., Бростофф Дж., Рот Д.Б., Ройтт А. Иммунология. М.: Логосфера, 2007.
- Tonegawa S. Somatic generation of antibody diversity // Nature. 1983. — V. 302. — P. 575 581.
- Попова H.A. Иммунология. Учеб. пособие. 2-е изд. Новосиб. гос. ун-т. Новосибирск, 2006.
- Tramontano A., Janda K.D., Lerner R.A. Catalytic antibodies // Science. 1986. — V. 234. -P. 1566−1569.
- Pollack S.J., Jacobs J.W., Schultz P.G. Selective chemical catalysis by an antibody // Science. 1986. — V. 234. — P. 1570−1573.
- Tawfik D.S., Lindner A.B., Chap R., Eshhar Z., Green B.S. Efficient and selective p-nitrophenyl-ester-hydrolyzing antibodies elicited by a p-nitrobenzyl phosphonate hapten // Eur. J. Biochem. 1997. — V. 244. — P.619−626.
- Jackson D.Y., Prudent J.R., Baldwin E.P., Schultz P.G. A mutagenesis study of a catalytic antibody // Proc. Natl. Acad. Sci. U. S. A. 1991. — V.88. — P.58−62.
- Hosomi N., Kawamura-Konishi Y., Kawano, R., Fujii I., Suzuki H. Site-directed mutagenesis study of the antibody 2D7 which catalyzes a reaction for insertion of Cu2+ into mesoporphyrin // J'. Biosci. Bioeng. 2005. — V. 99. — P.222−229.
- Wentworth P. Jr. Tech.Sight. Antibody design by man and nature // Science 2002. V. 296. -P. 2247−2249.
- Deng S.X., de Prada P., Landry D.W. Anticocaine catalytic antibodies // J. Immunol: Methods. 2002. — V. 269. — P. 299−310.
- Matsushita M., Hoffman T.Z., Ashley J.A., Zhou В., Wirsching P., Janda K.D. Cocaine catalytic antibodies: the primary importance of linker effects // Bioorg Med Chem Lett. 2001. -V. 11.-P.87−90.
- Xu Y., Hixon M.S., Yamamoto N., McAllister L.A., Wentworth A.D., Wentworth P. Jr., Janda K.D. Antibody-catalyzed anaerobic destruction of methamphetamine // Proc. Natl. Acad. Sci. U. S. A. 2007. — V. 104. — P.3681−3686.
- Rader C., Turner J.M., Heine A., Shabat D., Sinha S.C., Wilson I.A., Lerner R.A., Barbas C.F. A humanized aldolase antibody for selective chemotherapy and adaptor immunotherapy // J: Mol. Biol. 2003. — V. 332. — P.889−899.
- Schroer J., Sanner M., Reymond J.L. Design and Synthesis of Transition State Analogs for Induction of Hydride Transfer Catalytic Antibodies // J. Org: Chem. 1997. — V. 62. — P. 32 203 229.
- X. JI. Ф. Карей. Клиническая ревматология: пер. с англ: М.: Медицина. 1990. -С.448. .
- Насонова В.А., Астапенко М. Г. Клиническая ревматология. М.: Медицина. 1989. -С. 592.
- Jerne, N. Toward a network theory of the immune system // Ann. Immunol. 1974. -V.125c.-P. 373−389.
- Fields B.A., Goldbaum F.A., Ysern X., Poljak R.J., Mariuzza R.A. Molecular basis of antigen mimicry by an anti-idiotope // Nature. 1995. — V. 374. — P. 739−742.
- Behn U. Idiotypic networks: toward a renaissance? // Immunol Rev. 2007. — V.216. -P.142−152.
- Johnson G., Moore S.W. Idiotypic mimicry of a catalytic antibody active site // Mol. Immunol. 2002. — V. 39. — P. 273−288.
- Shuster A.M., Gololobov G.V., Kvashuk O.A., Bogomolova A.E., Smirnov I.V., Gabibov A.G. DNA hydrolyzing-autoantibodies // Science. 1992. — V. 256. — P. 665−667.
- A., Gabibov A.G. Autoantibodies to myelin basic protein catalyze site-specific degradation of their antigen// Proc. Natl. Acad. Sci. U. S. A. 2006. — V. 103. — P. 281−286.
- Paul S., Nishiyama Y., Planque S., Karle S., Taguchi H., Hanson С., Weksler M.E. Antibodies as defensive enzymes // Springer Semin. Immunopathol. 2005. — V. 26. — P. 485 503.
- Fujimoto M., Sato S. B cell signaling and autoimmune diseases: GD19/GD22 loop as, а В cell signaling device to regulate the balance of autoimmunity // J. Dermatol. Sci: 2007. -V. 46.-P. 1−9.
- Ikehara S. Treatment of autoimmune diseases in mice by. ai new method for allogeneic bone marrow transplantation // Ther. Apher. Dial. 2003. — V. 7. — P. 292−297.
- Nevinsky G.A., Buneva V.N. Human catalytic RNA- and DNA-hydrolyzing antibodies // J. Immunol. Methods. 2002. — V. 269. — P. 235−249.
- Nevinsky G. A, Buneva V.N. Natural catalityc antibodies abzymes /Edited by Keinan E. Weinheim. — WILEY-VCH Yelag GmbH&Co, 2005.
- Nevinsky G.A., Breusov A.A., Baranovskii A.G., Prints A.V., Kanyshkova T.G., Galvita
- A.V., Naumov V.A., Buneva V.N. Effect of different drugs on the level of DNA-hydrolyzing polyclonal IgG antibodies in sera of patients with Hashimoto’s thyroiditis and nontoxic nodal goiter // Med. Sci. Monit. 2001. — V. 7. — P. 201 -211.
- Власов A.B., Барановский А. Г., Канышкова Т. Г., Принц А. В., Забара В.Г., Наумов
- B.А., Бреусов А. А., Жьеже Р., Бунева В. Н., Невинский Г. А. Субстратная специфичность ДНК- и РНК-гидролизующих антител из крови больных полиартритом и аутоиммунным тиреоидитом // Молекуляр. Биология. 1998. — Т. 32. — С. 559−569.
- Kalaga R., Li L., O’Dell J.R., Paul S. Unexpected presence of polyreactive catalytic antibodies in IgG fromfunimmunized donors and decreased levels in rheumatoid arthritis // J. Immunol. 1995. — V. 155(5). — P.2695−2702.
- Planque S., Bangale Y., Song X.T., Karle S., Taguchi H., Poindexter В., Bick R., Edmundson A., Nishiyama Y., Paul S. Ontogeny of proteolytic immunity: IgM serine proteases // J. Biol.1 Chem. 2004. — V.279. — P. 14 024−14 032.
- Wentworth A.D., Jones L.H., Wentworth P. Jr., Janda K.D., Lerner R.A. Antibodies have the intrinsic capacity to destroy antigens // Proc. Natl. Acad. Sci. USA.- 2000: V. 97. -P. 10 930−10 935.
- Babior B.M., Takeuchi C., Ruedi J., Gutierrez A., Wentworth P. Jr. Investigating antibody-catalyzed ozone generation by human neutrophils // Proc. Nat. l Acad. Sci. U. S. A. 2003. -V. 100.-P. 3031−3034.
- Nieva J., Wentworth P. Jr. The antibody-catalyzed water oxidation pathway — a new chemical arm to immune defense? // Trends. Biochem. Sci. 2004. — V. 29. — P. 274−278.
- Ikhmyangan E.N., Vasilenko N.L., Buneva Y.N., Nevinsky G.A. IgG antibodies with peroxidase like activity from the sera of healthy Wistar rats // FEBS Letters. 2005. — V. 579 (18).-P. 3960−3964.
- Ikhmyangan E. N, Vasilenko N.L., Buneva V.N., Nevinsky G.A. Metal ions-dependent peroxidase and oxidoreductase activities of polyclonal IgGs from the sera of Wistar rats // J. Mol.Recognit. 2006. — V. 19. — P. 432−440.
- Kit Y.Y., Kim A.A., Sidorov V.N. Affinity-purified secretory immunoglobulin A possesses the ability to phosphorylate human milk casein // Biomed. Sci. 1991. — V. 2. — P. 201−204.
- Nevinsky G.A., Kit Y. Y., Semenov D.V., Buneva V.N. Secretory immunoglobulin A from human milk catalyzes milk protein phosphorylation // Appl. Biochem. Biotechnol. — 1998. — V. 75.-P. 77−91.
- Kit Y.Y., Semenov D.V., Nevinsky G.A. Phosphorylation of different human milk proteins by human catalytic secretory immunoglobulin A. Biochem // Mol. Biol. Int. 1996. — V. 39. -P. 521−527.
- Karataeva N.A., Gorbunov D., Prokudin I.V., Buneva V.N., Kulminskaya A.A., Neustroev K.N., Nevinsky G.A. Human milk antibodies with polysaccharide kinase activity // Immunol. Lett. 2006. — V. 103. — P: 58−67.
- Каратаева H.A., Невинский Г. А. Ферменты, фосфорилирующие липиды и полисахариды // Биохимия 2007. — Т. 32. — С.367−379.
- Taguchi H., Planque S., Nishiyama Y., Szabo P., Weksler M.E., Friedland R.P., Paul S. Catalytic antibodies to amyloid (3 peptide in defense against Alzheimer disease // Autoimmun. Rev. 2008. — V. 7. — P. 391−397.
- Zhang Y.W., Xu H. Molecular and cellular mechanisms for Alzheimer’s disease: understanding APP metabolism // Curr. Mol. Med. 2007. — V. 7. — P. 687−696.
- Paul S., Voile D.J., Beach C.M., Johnson D.R., Powell M.J., Massey R.J. Catalytic hydrolysis of vasoactive intestinal peptide by human autoantibody // Science 1989. V. 244. -P. 1158−1162.
- Mei S., Mody В., Eklund S.H., Paul S. Vasoactive intestinal peptide hydrolysis by antibody light chains // J. Biol. Chem. 1991. — V. 266. — P. 15 571−15 574.
- Paul S., Mei S., Mody В., Eklund S.H., Beach C.M., Massey R.J., Hamel F. Cleavage of vasoactive intestinal peptide at multiple sites by autoantibodies // J. Biol. Chem. 1991. — V. 266.-P. 16 128−16 134.
- Paul S. Catalytic activity of anti-ground state antibodies, antibody subunits, and human autoantibodies // Appl. Biochem. Biotechnol. 1994. — V. 47. — P. 241−253.
- Paul S. Mechanism and functional role of antibody catalysis // Appl. Biochem. Biotechnol. 1998.-V. 75.-P. 13−24.
- Boomsma J.D., Said S.I. The role of neuropeptides in asthma,// Chest. 1992. — V. 101. -P. 389−392.
- Groneberg D.A., Springer J., Fischer A. Vasoactive intestinal polypeptide as mediator of asthma//Pulm. Pharmacol. Ther. -2001. V. 14. -P. 391−401.
- Gabibov A.G., Gololobov G.V., Makarevich O.I., Schourov D.V., Chernova E.A., Yadav R.P. DNA-hydrolyzing autoantibodies // Appl. Biochem. Biotechnol. 1994. — V. 47. — P. 293 302.
- Андриевская О.А. РНК-гидролизующие антитела из сыворотки крови больных системной красной' волчанкой. Дисс.. канд. хим. наук / О. А. Андриевская. Новосибирский институт биоорганической химии СО РАН. — Новосибирск, 1998.
- Барановский А.Г. Нуклеазные активности антител при рассеянном склерозе. Дисс.. уч. ст. канд. биол. наук / А. Г. Барановский. Институт химической биологии и фундаментальной медицины СО РАН. Новосибирск, 2004.
- McDonnell G.V., Hawkins S.A. Application of the Poser criteria in primary progressive multiple sclerosis // Arm. Neurol. 1997. — V. 42. — P. 982−983.
- Li L., Paul S., Tyutyulkova S., Kazatchkine M.D., Kaveri S. Catalytic activity of anti-thyroglobulin antibodies // J. Immunol. 1995. -V. 154. — P. 3328−3332
- Одинцова E.C., Харитонова M.A., Барановский А. Г., Сизякина JI.П., Бунева В. Н., Невинский Г. А. ДНК-гидролизующие IgG антитела из крови больных синдромом приобретенного иммунодефицита человека // Молекулярн. биология. — 2006. — Т. 40*(5). — С. 857−864.
- Одинцова Е.С., Бунева В. Н. Особенности иммунного статуса и аутоиммунный ответ при ВИЧ-инфекции // Вестник НОЦ. 2004. — № 5/6. — С. 34−38.
- Baranova S.V., Buneva V.N., Kharitonova М.А., Sizyakina L.P., Calmels С., Andreola M.L., Parissi V., Nevinsky G.A. HIV-1 integrase-hydrolyzing antibodies from sera of HIV-infected patients // Biochimie. 2009. — V.91(9). — P. 1081−1086.
- Баранова С.В., Бунева В. Н., Невинский Г. А. Гидролиз интегразы вируса иммунодефицита человека каталитическими антителами против вирусной интегразы // Вестник НГУ. Серия: Биология, клиническая медицина. 2007. — Т. 5(2). — С. 74−81.
- Харитонова A.M., Сизякина Л. П., Невинский Г. А. ДНК-гидролизующая и протеолитическая активность абзимов в динамике ВИЧ-инфекции // Иммунология. — 2003. Т.24 (2). — Стр.68−69.
- Aird W.C. The role of the endothelium in severe sepsis and multiple organ dysfunction syndrome // Blood. 2003. — V. 101. — P. 3765−3777.
- Гармашова H.B., Казанский B.E., Тышкевич О. Б., Доронин Б. М., Бунева В. Н., Невинский Г. А. Антитела к ДНК в крови больных клещевым энцефалитом // Молекулярн. биология. 2004. — Т. 38 (4). — С. 723−730.
- Giinther G., Haglund М. Tick-borne encephalopathies: epidemiology, diagnosis, treatment and prevention // CNS Drugs. 2005. — V. 19(12). — P. 1009−1032.
- Phillips J.H., Braun W., Plescia O.J. Antigenicity of a bacterial deoxyribonucleic acid // Nature.- 1958.-V. 181.-P. 573−575.
- Levine L, Murakami WT, Vunakis HV, Grossman L. Specific antibodies to thermally denaturated deoxyribonucleic acid of phage T4 // Proc. Natl. Acad. Sci. U. S. A. 1960. -V. 46.-P. 1038−1043.
- Christiansen E., Ullman S., Halberg P. DNA-antibodies in sera from patients with systemic lupus erythematosus // Acta. Derm. Venereol. 1975. — V.55. -P. 195−198.
- Pisetsky D.S. Anti-DNA antibodies in systemic lupus erythematosus // Rheum. Dis. Clin. North. Am.-1992,-V. 18.-P. 437−454
- Termaat R.M., Assmann K.J., Dijkman H.B., van Gompel F., Smeenk R.J., Berden J.H. Anti-DNA antibodies can bind to the glomerulus via two distinct mechanisms // Kidney Int. -1992.-V. 42.-P. 1363−1371.
- Pisetsky D.S. Antibody responses to DNA in normal immunity and aberrant immunity // Clin. Diagn. Lab. Immunol. 1998. — V. 5. — P. 1−6.
- Madaio M.P. The role of autoantibodies in the pathogenesis of lupus nephritis // Semin. Nephrol. 1999. -V. 19. — P. 48−56.
- Fauci, A.S., Braunwald, E., Kasper, D.L., et al. Harrison’s Principles of Internal Medicine. / 17th ed. McGraw-Hill Professional. New York, 2008.
- Klinman D.M., Yi A.K., Beaucage S.L., Conover J., Krieg A.M. CpG motifs present in bacteria DNA rapidly induce lymphocytes to secrete interleukin 6, interleukin 12, and interferon gamma // Proc. Natl. Acad. Sei. USA.- 1996. V. 93. — P. 2879−2883.
- Sun S., Zhang X., Tough D., Sprent J. Multiple effects of immunostimulatory DNA on T cells and the role of type I interferons // Springer Semin. Immunopathol. — 2000. — V. 22. — P. 77−84.
- Messina J.P., Gilkeson G.S., Pisetsky D.S. Stimulation of in vitro murine lymphocyte proliferation by bacterial DNA // J. Immunol. 1991. — V. 147. — P.1759−1764.
- Brown W.C., Estes D.M., Chantier S.E., Kegerreis K.A., Suarez C.E. DNA and a CpG oligonucleotide derived from Babesia bovis are mitogenic for bovine B cells // Infect Immun. 1998. V. 66. — P. 5423−5432.
- Pisetsky D.S. Immune activation by bacterial DNA: a new genetic code // Immunity. -1996,-V. 5.-P. 303−310.
- Krieg A.M., Yi A.K., Matson S., Waldschmidt T.J., Bishop G.A., Teasdale R., Koretzky G.A., Klinman D.M. CpG motifs in bacterial DNA trigger direct B-cell activation // Nature 1995.-V. 374.-P. 546−549.
- Madaio M.P., Hodder S., Schwartz R.S., Stollar B.D. Responsiveness of autoimmune and normal mice to nucleic acid antigens // J. Immunol. 1984. — V. 32. — P. 872−876.
- Gilkeson G.S., Grudier J.P., Pisetsky D.S. The antibody response of normal mice to immunization with single-stranded DNA of various species origin // Clin. Immunol. Immunopathol. 1989. — V. 51. — P.4 362−371.
- Wu Z.Q., Drayton D., Pisetsky D.S. Specificity and immunochemical properties of antibodies to bacterial DNA in sera of normal human subjects and patients with systemic lupus erythematosus (SLE) // Clin. Exp. Immunol'. 1997. — V. 109. — P. 27−31.
- Karounos D.G., Grudier J.P., Pisetsky D.S. Spontaneous expression of antibodies to DNA of various species origin in sera of normal subjects and patients with systemic lupus erythematosus // J. Immunol. 1988. — V. 140. — P. 451−455.
- Shoenfeld Y. Idiotypic induction of autoimmunity: a new aspect of the idiotypic network // FASEB J. 1994. — V. 8. — P. 1296−1301.
- Jouanne C., Avrameas S., Payelle-Brogard B. A peptide derived from a polyreactive monoclonal anti-DNA natural antibody can modulate lupus development in (NZBxNZW)Fl mice // Immunology. 1999. — V. 96. — P: 333−339.
- Wun, H.L., Leung, D.T., Wong, K.C., Chui, Y.L., and Lim, P.L. Molecular mimicry: anti-DNA antibodies may arise inadvertently as a response to antibodies generated to microorganisms // Int. Immunol. 2001. — V. 13. — P. 1099−1107
- Putterman C., Diamond B. Immunization with a peptide surrogate for double-stranded DNA (dsDNA) induces autoantibody production and renal immunoglobulin deposition // J. Exp. Med.- 1998.-V. 188.-P. 29−38.
- Hirabayashi Y., Oka Y., Tada M., Takahashi R., Ishii T. A potential trigger of nephritogenic anti-DNA antibodies in lupus nephritis // Ann. N. Y. Acad. Sci. 2007. -V. 1108.-P. 92−95.
- Hirabayashi Y., Oka Y., Ikeda Т., Fujii H., Ishii Т., Sasaki Т., Harigae H. The endoplasmic reticulum stress-inducible protein, Herp, is a potential triggering antigen for anti-DNA response // J. Immunol. 2010. — V. 184. — P. 3276−3283.
- Zack D.J., Yamamoto K., Wong A. L., Stempniak M., French C., Weisbart R. H. DNA mimics a self-protein that may be a target for some anti-DNA antibodies in systemic lupus erythematosus // J. Immunol. 1995. — V. 154. — P. 1987−1994.
- Невинский Г. А., Канышкова Т. Г., Бунева В. Н. Природные каталитически активные антитела (абзимы) в норме и при патологии // Биохимия. 2002. — Т. 65(11). — С. 14 731 487.
- Nevinsky G.A., Buneva V.N. Catalytic antibodies in healthy humans and patients with autoimmune and viral diseases // J. Cell Mol. Med. 2003. — V. 7(3). — P. 265−276.
- Alarcon-Segovia D., Ruiz-Arguelles A., Fishbein E. Antibody to nuclear ribonucleoprotein penetrates live human mononuclear cells through Fc receptors // Nature. — 1978. V. 271. -P. 67−69.
- Golan T.D. The nuclear compartment of living cells is not an absolute immunologically sequestered site: evidence for spontaneous intranuclear entry of lupus autoantibodies to living cells // Leukemia. 1997. — V. 11. -P. 6−9.
- Koscec M., Koren E., Wolfson-Reichlin M., Fugate R.D., Trieu E., Targoff I.N., Reichlin M. Autoantibodies to ribosomal P proteins penetrate into live hepatocytes and cause cellular dysfunction in culture // J. Immunol. 1997. — V. 159. — P. 2033−2041.
- Vlahakos D, Foster MH, Ucci AA, Barrett KJ, Datta SK, Madaio MP. Murine monoclonal anti-DNA antibodies penetrate cells, bind to nuclei, and induce glomerular proliferation and proteinuria in vivo // J. Am. Soc. Nephrol. 1992. — V. 2. — P. 1345−1354.
- Yanase K., Smith R.M., Puccetti A., Jarett L., Madaio M.P. Receptor-mediated cellular entry of nuclear localizing anti-DNA antibodies via myosin 1 // J. Clin. Invest. 1997. -V. 100.-P. 25−31.
- Matsuura K., Ikoma S., Yoshida K., Sinohara H. DNA-hydrolyzing activity of Bence Jones proteins // Biochem. Biophys. Res. Commun. 1998. — V. 243. — P.719−721.
- Matsuura K., Yamamoto K., Sinohara H. Amidase activity of human Bence Jones proteins. Biochem // Biophys. Res. Commun. 1994. — V. 204. — P. 57−62.
- Paul S., Li L., Kalaga R., Wilkins-Stevens P., Stevens F.J., Solomon A. Natural catalytic antibodies: peptide-hydrolyzing activities of Bence Jones proteins and VL fragment // J. Biol. Chem. 1995. -V. 270.-P. 15 257−15 261.
- Sinohara H., Matsuura K. Does catalytic activity of Bence-Jones proteins contribute to the pathogenesis of multiple myeloma? // Appl. Biochem. Biotechnol. 2000. — V. 83. — P.85−92.
- Matsuura К., Ikoma S., Watanabe M., Togawa A., Sinohara H. Some Bence-Jones proteins enter cultured renal tubular cells, reach nuclei and induce cell death // Immunology. -1999.-V. 98.-P. 584−589.
- Jang Y.J., Stollar B.D. Anti-DNA antibodies: aspects of structure and pathogenicity // Cell. Mol. Life. Sci. 2003. — V. 60, P. 309−320.
- Cleary J., Glick G.D. Mutational analysis of a sequence-specific ssDNA binding lupus autoantibody // Biochemistry. 2003. — V. 42. — P.30−41.
- Rodkey L.S., Gololobov G., Rumbley C.A., Rumbley J., Schourov D.Y., Makarevich O.I., Gabibov A.G., Voss E.W. Jr. DNA hydrolysis by monoclonal autoantibody BV 04−01*// Appl. Biochem. Biotechnol. 2000. — V. 83. — P. 95−103
- Галактионов В.Г. Иммунолгия. -M.: издательство МГУ, 1998.
- Suzuki К., MaruyaM., Kawamoto S., Fagarasan S. Roles of B-l and B-2 cells in innate and acquired IgA-mediated'immunity // Immunol. Rev. 2010. — V. 237. — P. 180−190.'
- Dauphinee M., Tovar Z., Talal N. В cells expressing CD5 are increased in Sjogren’s syndrome // Arthritis Rheum. 1988. — V. 31. — P. 642−647.
- Иерусалимский А.П. Клещевой энцефалит. Новосибирск: Наука, 2001.
- Аммосов А.Д. Клещевой энцефалит. Кольцово, 2006.
- Погодина В.В., Фролова М. П., Ерман Б. А. Хронический клещевой энцефалит. -Новосибирск:Наука, 1986.
- Морозова О.В. Свойства*некоторых белков вируса клещевого энцефалита. Дисс.. д. биол. наук / О. В. Морозова. Государственный научный центр вирусологии и биотехнологии «Вектор». Кольцово, 2001
- Girschick H.J., Guilherme L., Inman R: D., Latsch K., RihbM., Sherer Y., Shoenfeld Y., Zeidler H., Arienti S., Doria A. Bacteriabtriggers and autoimmune rheumatic diseases // Clin. Exp. Rheumatol. 2008. — V. 26. — P. 12−17.
- David N. Posnett, Dmitry Yarilin. Amplification of autoimmune disease by infection // Arthritis. Res. Ther. 2005. — V. 7, P. 74−84.
- Butrimiene I., Ranceva J., Griskevicius A. Potential triggering infections of reactive arthritis // Scand. J. Rheumatol. 2006. — V. 35. — P. 459−462.
- Franz A., Webster A.D., Furr P.M., Taylor-Robinson D. Mycoplasmal arthritis in patients with primary immunoglobulin deficiency: clinical features and outcome in 18 patients // Br. J. Rheumatol. 1997. — V. 36. — P. 661−668.
- Granfors K., Toivanen A. IgA-anti-yersinia antibodies in yersinia triggered1, reactive arthritis //Ann. Rheum. Dis. 1986. -V. 45. — P. 561−565.
- Лобзин Ю.В. Инфекционные болезни. — СПб.: СпецЛит, 2001.
- Islam D., Wretlind В., Ryd M., Lindberg A.A., Christensson B. Immunoglobulin subclass distribution and dynamics of Shigella-specific antibody responses in serum and stool samples in shigellosis // Infect. Irnrnun. 1995. — V. 63. — P. 2054−2061.
- Hengge U.R., Tannapfel A., Tyring S.K., Erbel R, Arendt G., Ruzicka T. Lyme borreliosis // Lancet Infect. Dis. 2003. — V. 3. — P. 489−500.
- Singh S.K., Girschick H.J. Lyme borreliosis: from infection to autoimmunity // Clin. Microbiol. Infect. 2004. — V. 10. — P. 598−614.
- Поздеев O.K. Медицинская микробиология. M.: Гэотар-Мед, 2001.
- Guttormsen H.K., Wetzler L.M., Solberg C.O. Humoral immune response to class 1 outer membrane protein during the course of meningococcal disease // Infect. Immun. 1994. -V. 62, P.1437−1443.
- Guttormsen H.K., Wetzler L.M., Naess A. Humoral immune response to the class 3 outer membrane protein during the course of meningococcal disease // Infect. Immun. 1993. — V.61.-P. 4734−4742.
- Brickman C.M., Shoenfeld Y. The mosaic of autoimmunity // Scand J Clin Lab Invest Suppl. 2001. — V. 235. — P. 3−15.
- Fujinami R.S., Oldstone M.B. Amino acid homology between the encephalitogenic site of myelin basic protein and virus: mechanism for-autoimmunity // Science. — 1985. V. 230. — P. 1043−1045.
- Doria A., Canova M., Tonon M., Zen M., Rampudda E., Bassi N., Atzeni F., Zampieri S., Ghirardello, A. Infections as triggers and complications, of systemic lupus erythematosus // Autoimmun. Rev. 2008. — V". 8. — P. 24−28
- Randone S. В., Guiducci S., Cerinic M. M. Systemic sclerosis and infections // Autoimmun. Rev. 2008. — V. 8. — P. 36−40
- Guilherme L., KalilJ. Rheumatic fever and rheumatic heart disease: cellular mechanisms leading autoimmune reactivity and disease // J. Clin. Immunol. — 2010. — V. 30. P. 17−23
- Cole B.C., Griffiths M.M. Triggering and exacerbation of autoimmune arthritis by the Mycoplasma arthritidis superantigen MAM // Arthritis Rheum. 1993. — V. 36. — P. 994−1002.
- Brocke S., Gaur A., Piercy C., Gautam A., Gijbels K., Fathman C.G., SteinmanL. Induction of relapsing paralysis in experimental autoimmune encephalomyelitis by bacterial superantigen // Nature. 1993. — V. 365. — P. 642−644.
- Fujinami R.S., von Herrath M.G., Christen U., Whitton J.L. Molecular mimicry, bystander activation, or viral persistence: infections and autoimmune disease // Clin. Microbiol. Rev. -2006.-V. 19.-P. 80−94.
- Остерман JI.A. Методы исследования белков и нуклеиновых кислот. Электрофорез и ультрацентрифугирование. -М.: Наука- 1981.
- Sambrook J., Russell D.W. Molecular Cloning: A laboratory manual. New York, Cold Spring Harbor Laboratory Press- 2001.
- Morrissey J.H. Silver stain for proteins in polyacrylamide gels: a modified procedure with enhanced uniform sensitivity // Anal. Biochem. 1981. — V. 117. — P. 307−310.
- Towbin H., Staehelin Т., Gordon J. Electrophoretic transfer of proteins from polyacrylamide gels to nitrocellulose sheets: procedure and some applications // Proc. Natl. Acad. Sci. USA. 1979. — V. 76. — P. 4350−4354.
- Scopsi L., Larsson L.I. Increased sensitivity in peroxidase immunocytochemistry. A comparative study of a number of peroxidase visualization methods employing a model system // Histochemistry. 1986. — V. 84. — P. 221−230.
- Fersht A. Enzyme Structure and Mechanism. NY: W.H. Freeman, 1985.
- Невинский Г. А., Канышкова T.F., Бунева B.H. Природные каталитически активные антитела (абзимы) в норме и при патологии // Биохимия. 2000. — Т. 65 (№ 11). -G. 1473−1487.i
- Grodzki А.С., Berenstein Е. Antibody purification: affinity chromatography protein A and protein G Sepharose // Methods Mol. Biol. — 2010. — V. 588. — P. 33−41.
- Swanborg R.H., Boros D.L., Whittum-Hudson J.A., Hudson A.P. Molecular mimicry and horror autotoxicus: do chlamydial infections elicit autoimmunity? // Expert Rev. Mol. Med. -2006.-V. 8.-P. 1−23.
- Strassburg C.P., Vogel A., Manns M.P. Autoimmunity and hepatitis С // Autoimmun. Rev. -2003. V. 2.-P. 322−331.
- Kanyshkova T.G., Semenov D.V., Khlimankov D.Yu., Buneva V.N., Nevinsky G.A. DNA-hydrolyzing activity of the light chain of IgG antibodies from milk of healthy human mothers // FEBS Lett. 1997. — V. 416. — P. 23−26.
- Hifumi E., Mitsuda Y., Ohara K., Uda T. Targeted destruction of the HIV-1 coat protein gp41 by a catalytic antibody light chain // J. Immunol. Methods. 2002. — V. 269. — P. 283 298.
- Mitsuda Y., Hifumi E., Tsuruhata K., Fujinami H., Yamamoto N., Uda T. Catalytic antibody light chain capable of cleaving a chemokine receptor CCR-5 peptide with a high reaction rate constant // Biotechnol. Bioeng. 2004. — V. 86. — P. 217−225.
- Gao Q.S., Sun M., Tyutyulkova S., Webster D., Rees A., Tramontano A., Massey R.J., Paul S. Molecular cloning of a proteolytic antibody light chain // J. Biol. Chem. 1994. -V. 269.-P. 32 389−32 393.
- Sierakowska H., Shugar D. Mammalian nucleolytic enzymes // Prog. Nucleic Acid Res. Mol. Biol. 1977. -V. 20. — P. 59−130.
- Dupureur C.M. Roles of metal ions in nucleases // Curr. Opin. Ghem. Biol. 2008. -V. 12.-P. 250−255.
- Widlak P., Garrard W.T. Ionic and cofactor requirements for the activity of the apoptotic endonuclease DFF40/CAD//Mol. Cell Biochem.-2001.-V. 218.-PJ125−130.
- Low R.L., Gerschenson M. Endonuclease G isolation and assays // Methods Mol. Biol. -2002.-V. 197.-P. 331−349.
- Yang W. Nucleases: diversity of structure, function and mechanism // Q. Rev. Biophys. -2011.-V. 44.-P. 1−93
- Baranovskii A- G., Odintsova E. S., Buneva V. N., Doronin В. M.,. Nevinsky G. A: Comparison of enzymatic properties of DNA-abzymes and human DNases // Nucleosides Nucleotides Nucleic Acids- 2004. — V. 23. — P: 1053−1056.
- Feng II.,. Dong L., Cao W. Catalytic mechanism of endonuclease v: a catalytic and regulatory two-metal model // Biochemistry, 2006. — V.45. — P. 10 251 -10 259:
- Steitz T.A., Steitz J.A. A general two-metal-ion-mechanism for, catalytic RNA // Proc. Natl. Acad. Sci. USA.- 1993. V.90. — P. 6498−6502.
- Suck D. DNA recognition by DNase I // J. Mol. Recognit. 1994. — V. 7. — P. 65−70.
- Andrievskaya O.A., Buneva V.N., Naumov V.A., Nevinsky G.A. Catalytic heterogeneity of polyclonal RNA-hydrolyzing IgM from sera of patients with lupus erythematosus // Med. Sci. Monit. 2000. — V. 6. — P. 460−470
- Krasnorutskii M.A., Buneva V.N., Nevinsky G.A. Antibodies against RNA hydrolyze RNA and DNA // J. Mol. Recognit. 2008. — V. 21. — P. 338−347.
- M.A. Krasnorutskii, V.N. Buneva, G.A. Nevinsky. Immunization of rabbits with DNase I produces polyclonal antibodies with DNase and RNase activities // J. Mol. Recognit. 2008. -V.21.-P. 233−242.
- Krasnorutskii M.A., Buneva V.N., Nevinsky G.A. Immunization’of rabbits with DNase II leads to formation. of polyclonal antibodies with-DNase and RNase activities // Int. Immunol. -2009:-V. 21.-P.'349−360:
- Krasnorutskii M.A., Buneva V.N., Nevinsky G.A. Antibodies against pancreatic ribonuclease A hydrolyze RNA and DNA // Int. Immunol. 2008. — V. 20. — P. 1031−1040.
- Nevinsky G.A., Kanyshkova T.G., Semenov D.V., Vlassov A.V., Gal’vita A.V., Buneva V.N. Secretory immunoglobulin A from healthy human mothers' milk catalyzes nucleic acid hydrolysis // Appl. Biochem. Biotechnol. 2000. — V. 83. -P. 115−129.
- Одинцова E.C. Природные иммуноглобулины как нуклеазы и протеазы в норме и при ВИЧ-инфекции. Дисс.. канд. биол. наук / Е. С. Одинцова. Институт химической биологии и фундаментальной медицины СО РАН. Новосибирск, 2007.
- Torres М., May R., Scharff M.D., Casadevall A. Variable-region-identical antibodies differing in isotype demonstrate differences in fine specificity and idiotype // J. Immunol. — 2005.-V. 174.-P. 2132−2142.
- McLean G.R., Torres M., Elguezabal N., Nakouzi A., Casadevall A. Isotype can affect the fine specificity of an antibody for a polysaccharide antigen // J Immunol. 2002. — V. 169. -P. 1379−1386.
- Cooper L.J., Schimenti J.C., Glass D.D., Greenspan N.S. H chain C domains influence the strength of binding of IgG for streptococcal group A carbohydrate // J Immunol. 1991. -V. 146.-P. 2659−2663.
- Paul W.E. Fundamental immunology. Philadelphia-New York, 1999.