Диссертация (1140110), страница 18
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–2003 – V. 38. – P. 71–79.9952. Anderson R., Tintinger R., Potjo M., Feldman Ch. "Beneficial and HarmfulInteractions of Antibiotics with Microbial Pathogens and the Host Innate Immune System”// Pharmaceuticals – 2010. – V.3 –P. 1694-1710.53.Bacha J., Donini O., Lee K., Scott M. “The Innate Defense” // Modern DrugDiscovery.
– 2004. – P. 43-46.54.Bascones-Martínez A., Muñoz-Corcuera M., Noronha S., Mota P., Bascones-IlundainC., Campo-Trapero J. Host defence mechanisms against bacterial aggression in periodontaldisease: Basic mechanisms // Med. Oral Patol.Oral Cir. Bucal. – 2009. – V.14 – P. 680-685.55. Benakanakere M., Kinane D.F. Innate cellular responses to the periodontal biofilm.//Front.Oral Biol. – 2012. – V.15.
– P. 41-55.56.Bissell J., Joly S., Johnson G.K., Organ C.C., Dawson D., McCray P.B. Jr, GuthmillerJ.M. Expression of b-defensins in gingival health and in periodontal disease // J. Oral Pathol.Med. – 2004. –V.33. –P. 278–285.57. Byndloss M.X., Tsolis R.M. Chronic Bacterial Pathogens: Mechanisms ofPersistence.// Microbiol.Spectr. – 2016. – V.4. – №2.58. Calbo E., Alsina M.,Rodríguez-Carballeira M., Lite J., Garau J. Systemic expressionof cytokine production in patients with severe pneumococcal pneumonia: Effects of treatmentwith a β-lactam versus fluoroquinolone.// Antimicrob.
Agents Chemother. – 2008. – V.52. –P. 2395–2402.59. Chalermsarp N., Azuma M. Identification of three distinct subsets of migratingdendritic cells from oral mucosa within the regional lymph nodes // Immunology. – 2009. –V.127. – P. 558–566.60. Chang Y.C., Yang S.F., Lai C.C., Liu J.Y., Hsieh Y.S. Regulation of matrixmetalloproteinase production by cytokines, pharmacological agents and periodontalpathogens in human periodontal ligament fibroblast cultures // J. Periodontal Res.
– 2002. –V. 37. – №3. – P. 196–203.61.Chong K.T., Xiang L., Wang X., Jun E.L., Xi L.F., Schweinfurth J.M. High levelexpression of human epithelial beta-defensins (hBD-1, 2 and 3) in papillomavirus inducedlesions // Virol.J. – 2006. – V.3. – P.75.62. Chrzęszczyk D., Konopka T., Ziętek M. Polymorphisms of Toll-Like Receptor 4as a Risk Factor for Periodontitis: Meta-Analysis // Adv. Clin. Exp. Med. – 2015.
– V.24. –№6. – P. 1059-1070.10063. Dale BA, Fredericks LP. Antimicrobial peptides in the oral environment: expressionand function in health and disease // Curr Issues Mol. Biol. – 2005. – №7. P. 119–133.64. Dalhoff A.; Shalit I. Immunomodulatory effects of quinolones // Lancet Infect.Dis. – 2003. – №3. – Р. 359–371.65. Dalhoff A.
Immunomodulatory activities of fluoroquinolones.// Infection – 2005. –№33 (Suppl.2). – Р. 55–70.66. Dale B.A., Kimball J.R., Krisanaprakornkit S., Roberts F., Robinovitch M., O’NealR., Valore E.V., Ganz T., Anderson G.M., Weiberg A. Localized antimicrobial peptideexpression in human gingival // J. Periodont Res. – 2001. – №35. –Р. 1–10.67.
Diamond D.L., Kimball J.R., Krisanaprakornkit S., Ganz T., Dale B.A. Detectionof b defensins secreted by human oral epitlhelial cells // J. Immunol Methods. – 2001. –№256. – Р. 65–67.68. Dommisch H., Acil Y., Dunsche A., Winter J., Jespen S. Differential gene expressionof human beta-defensins (hBD-1, -2, -3) in inflammatory gingival disease // Oral MicrobialImmunol. – 2005. – №30. – Р. 186–190.69. Dommisch H., Winter J., Götz W., Miesen J., Klein A., Hierse L., Deschner J.,Jäger A., Eberhard J., Jepsen S.. Effect of growth factors on antimicrobial peptides and proinflammatory mediators during wound healing // Clin Oral Investig. – 2015. – №19(2). – Р.209-220.70.
Dumitrescu O.; Badiou C.; Bes M.; Reverdy M.E.; Vandenesch F.; Etienne, J.;Lina G. Effect of antibiotics, alone and in combination, on Panton-Valentine leukocidinproduction by a Staphylococcus aureus reference strain // Clin. Microbiol. Infect. – 2008. –№14. – Р. 384–388.71. Dunsche A., Açil Y., Dommisch H., Siebert R., Schröder J.M., Jepsen S. The novelhuman beta-defensin-3 is widely expressed in oral tissues // Eur J. Oral Sci. – 2002. –№110. –Р.
121–124.72. Elson G., Dunn-Slegrist I., Daubeuf B., Pugin J. Contribution of Toll- like receptorsto the innate immune response to Gram-positive and Gram-negative bacteria // Blood. –2007 – №109. – Р. 1574–1583.73. Feddi P.F. The Periodontic Syllabus // Lippincott Williams & Wilkins. – 2000. – Р. 287.74.
Feng Z., Weinberg A. Role of bacteria in health and disease of periodontal tissues// Periodontol 2000. – 2006. –.№40. – Р. 50–76.10175. Fredeking T.M., Zavala-Castro J.E., González-Martínez P., Moguel-Rodríguez W.,Sanchez E.C., Foster M.J., Diaz-Quijano F.A. Dengue Patients Treated with DoxycyclineShowed Lower Mortality Associated to a Reduction in IL-6 and TNF Levels // Recent PatAntiinfect Drug Discov. – 2015.
– №10(1). – Р. 51–58.76. Galán J.E. Alternative strategies for becoming an insider: lessons from the bacterialworld // Cell. – 2000. –№103. – Р. 363-366.77. Gallo R.L., Nizet V. Endogenous production of antimicrobial peptides in innateimmunity and human disease // Curr Allergy Asthma Rep. – 2003.
– №3. – Р. 402–409.78. Garc´ıa J.R., Jaumann F., Schulz S., Krause A., Rodr´ıguez- Jime´nez J., ForssmannU., Adermann K., Klu¨ ver E., Vog- elmeier C., Becker D., Hedrich R., Forssmann W.G.,Bals R. Identification of a novel, multifunctional beta-defensin (human beta-defensin 3)with specific antimicrobial activity. Its interaction with plasma membranes of Xenopusoocytes and the induction of macrophage chemoattraction // Cell Tissue Res. – 2001. –№306.
– Р. 257–264.79. Geatch D.R., Harris J.I., Heasman P.A., Taylor J.J. In vitro studies of lymphocyteapoptosis incduced by the periodontal pathogen Porphyromonas gingivalis // Journal ofPeriodontal Research. – 1999. – №334(2). – Р. 70–78.80. Gemmell E., Yamazaki K., Seymour G.J. The role of T cells in periodontal disease:homeostasis and autoimmunity // Periodontol 2000. – 2007. – №43. – Р. 14–40.81. Gemmell E., Yamazaki K., Seymour G.J. Destructive periodontitis lesions aredetermined by the nature of the lymphocytic response // Crit Rev Oral Biol Med. – 2002.
–№13. – Р. 17–34.82. Gomes L.M., Lopes F.F., Vasconcelos A., Pereira A.L., Alves C.M. The interfacebetween metabolic syndrome and periodontal disease // RSBO. – 2012. – №9(4) – Р. 434–441.83. Gropp R., Frye M., Wagner T.O., Bargon J. Epithelial defensins impair adenoviralinfection: implication for adenovirus-mediated gene therapy.// Hum Gene Ther. – 1999. –№10. – Р. 957–964.84. Guo Y., Nguyen K-A., Potempa J.. Dichotomy of gingipains action as virulencefactors: from cleaving substrates with the precision of a surgeon's knife to a meat chopperlike brutal degradation of proteins // Periodontol 2000.
–2010. –№54. – Р. 15–44.85. Han X., Kawai T., Taubman A. Bacterial-responsive В lymphocytes induceperiodontal bone resorption // J. Immunol. – 2006. – Vol. 176. – №1. – P. 625–631.10286. Hancock R.E. Peptide antibiotics // Lancet. – 1997. – №349. – Р. 418-422.87. Hancock R.E., Scott M.G. The role of antimicrobial peptides in animal defenses //Proc Natl Acad Sci U S A. – 2000. –№97. – Р.
8856–8861.88. Hans M., Hans V.M. Toll-like receptors and their dual role in periodontitis: a review// Journal of Oral Science –2011. – №53(3) –Р. 263–271.89. Harjjar A.,Mahony D., Ozinsky A. Mucoid Pseudomonas aeruginosa TNFa andIL-1β, but not IL-6, induce human β-defensin in respiratory epitelia Am // Respir.Cell.Mol.Biol. – 2000. – vol.22. – №6 – Р.
714–721.90. Hatakeyama J., Tamai R., Sugiyama A., Akashi S., Sugawara S., Takada H.Contrasting responses of human gingival and periodontal ligament fibroblasts to bacterialcell-surface components through the CD14/Toll-like receptor system // Oral MicrobiolImmunol. – 2004 – №18. – Р. 14–23.91. Hauber H.P., Tulic M.K., Tsicopoulos A. Toll-like receptors 4 and 2 expression in thebronchial mucosa of patients with cystic fibrosis // J. Can Respir. – 2005. – №12. – Р. 13–18.92.
Hemmi H., Takeuchi O., Kawai T., Kaisho T., Sato S., Sanjo H., Matsumoto M.,Hoshino K., Wagner H., Takeda K., Akira S.. A Toll-like receptor recognizes bacterial DNA// Nature. – 2000 – №408(6813). – Р. 740–45.93. Hirota K., Kanitani H., Nemoto K., Ono T., Miyake Y. Cross-reactivity betweenhuman sialyl Lewis(x) oligosaccharide and common causative oral bacteria of infectiveendocarditis // FEMS Immunol Med Microbiol. – 1995 – №12(2). – Р. 159–164.94.
Hirst R.A., Mohammed B.J., Mitchell T.J., Andrew P.W., O’Callaghan C.Streptococcus pneumoniae-induced inhibition of rat ependymal cilia is attenuated byantipneumolysin antibody // Infect. Immun. – 2004. –№72. – Р. 6694–6698.95. Honda T., Domon H., Okui T., Kajita K., Amanuma R., Yamazaki K. Balance ofinflammatory response in stable gingivitis and progressive periodontitis lesions // Clin. Exp.Immunol. – 2006 – №144(1). – Р. 35–40.96.
Hosokawa I., Hosokawa Y., Komatsuzawa H., Goncalves R.B., Karimbux N.,Napimoga M.H., Seki M., Ouhara K., Sugai M., Taubman M.A., Kawai T. Innate immunepeptide LL-37 displays distinct expression pattern from beta-defensins in inflamed gingivaltissue // Clin. Exp. Immunol. – 2006. – №146. – Р. 218–225.97. Janeway C., Travers J., Walport V. Immunobiology. The immune system in healthand disease // Garland Science, 2005. – Vol.6, №14.
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