КОФУНКЦИОНИРОВАНИЕ ЗАЩИТНЫХ СИСТЕМ: МУКОЗАЛЬНЫЙ ИММУНИТЕТ И СИСТЕМА КОМПЛЕМЕНТА ЧЕЛОВЕКА

В обзоре суммированы данные об антипатогенном кофунщионировании мукозального иммунитета (МИ) и трех путей системы комплемента человека (СКЧ) на этапах активации, усиления и терминации ответа. Учтены рецепторные участники СКЧ и МИ, паттерн-распознающие молекулярные факторы, включая лектиновые. Отмечены случаи использования вирусными и микробными патогенами компонентов и реакций СКЧ и МИ в стратегиях инвазии и выживания в организме. Обозначены перспективы стратегического развития и разработки взаимоотношений МИ и СКЧ для повышения антипатогенного статуса человека.

мукозальный иммунитет, система комплемента, муцины, лектины, патогены, вирусы, бактерии, грибы

1. Алешкин В.А., Афанасьев С.С., Караулов А.В. Микробиоценозы и здоровье человека. - М.: Династия, 2015.-548 с.

2. Лахтин M.B., Афанасьев C.C., Лахтин B.M., Алешкин В.А., Караулов А.В., Алешкин А.В., Несвижский Ю.В., Байракова А.Л., Афанасьев М.С., Воропаева Е.А. Влияние лектинов пробиотических бактерий на условно-патогенный и пробиотический компартменты микробиоценоза биотопа человека // Астраханский медицинский журнал. - 2014. - Т. 9, №2.-С. 51-58.

3. Лахтин M.B., Караулов А.В., Лахтин B.M., Алешкин В.А., Афанасьев С.С., Несвижский Ю.В., Афанасьев М.С., Воропаева Е.А., Алешкин А.В. Лектин- гликоконъюгатные системы в организме человека // Иммунопатология, аллергология, инфектология. - 2012.-№1,-С. 27-36.

4. Лахтин M.B., Козлов Л.В., Лахтин В.М., Дьяков В.Л. Выявление дефицитов изотипов С4А и С4В компонентов комплемента человека изоэлектрофокусированием и по различию в химической реакционной способности активированных форм // Биоор- ганическая химия. - 2007. - Т. 33. - С. 464-469.

5. Лахтин M.B., Лахтин B.M., Афанасьев C.C., Алешкин В.А. Мукозальный иммунитет против патогенов и опухолей с участием системы «Лектины пробиотиков - Гликополимеры» // Бюллетень ВСНЦ СО РАМН. - 2015. - № 3. - С. 62-69.

6. Лахтин M.B., Лахтин B.M., Афанасьев C.C. Алешкин B.A., Корсун В.Ф., Афанасьев М.С. Лектины: в растворах и сорбированные, активные и латентные, системные и сетевые, флюоресцентные и хемилюминесцентные, в регуляции сборок и деградации, синергистические и синбиотические // Журнал научных статей «Здоровье и образование в XXI веке».- 2014.-Т. 16, № З.-С. 64-68.

7. Antoni L, NudingS, Wehkamp J, Stange EF (2014). Intestinal barrier in inflammatory bowel disease. WorldJ. Gastroenterol, 20,1165-1179.

8. Ashman RB, Papadimitriou JM, Fulurija A, Drysdale KE, Farah CS, Naidoo O, Gotjamanos T (2003). Role of complement C5 and Tlymphocytes in pathogenesis of disseminated and mucosal candidiasis in susceptible DBA/2 mice. Microb. Pathol., 34,103-113.

9. Brandtzaeg P (2010). Update on mucosal immunoglobulin A in gastrointestinal disease. Curr. Opin. Gastroenterol, 26, 554-563.

10. Camacho ZT, Turner MA, Barry MA, Weaver EA (2014). CD46-mediated transduction of a species D adenovirus vaccine improves mucosal vaccine efficacy. Hum. Gene Ther., 25, 364-374.

11. Datta PK, Rappaport J (2006). HIV and complement: hijacking an immune defense. Biomed Pharmaco- ther., 60, 561-568.

12. Degn SE, Thiel S (2013). Humoral pattern recognition and the complement system. Scand.J. Immunol, 78 (2), 181-93.

13. Deguchi Y, Andoh A, Inatomi 0, Araki Y, Hata K, Tsujikawa T, Kitoh K, Fujiyama Y (2005). Development of dextran sulfate sodium-induced colitis is aggravated in mice genetically deficient for complement C5. Int.J. Mol. Med., 16,605-608.

14. Elvington M, Schepp-Berglind J, Tomlinson S (2015). Regulation of the alternative pathway of complement modulates injury and immunity in a chronic model of dextran sulphate sodium-induced colitis. Clin. Exp. Immunol, 179, 500-508.

15. Elvington М, Blichmann Р, Qiao F, Scheiber М, Wadsworth С, Luzinov I, Lucero J, Vertegel A, Tomlinson S [2014]. A novel protocol allowing oral delivery of a protein complement inhibitor that subsequently targets to inflamed colon mucosa and ameliorates murine colitis. Clin. Exp. Immunol, 177, 500-508.

16. GunputST, LigtenbergAJ, Terlouw B, Brouwer M, Veerman EC, Wouters D [2015]. Complement activation by salivary agglutinin is secretor status dependent. Biol. Chem., 396, 35-43.

17. Gruber A, Lell CP, Speth C, Stoiber H, Lass-Florl C, Sonneborn A, ErnstJF, Dierich MP, Wiirzner R [2001]. HIV type 1 Tatbinds to Candida albicans, inducing hyphae but augmenting phagocytosis in vitro. Immunology, 104 [4], 455- 461.

18. Hu W, Yu Q, Hu N, Byrd D, Amet T, Shikuma C, Shiramizu B, Halperin JA, Qin X [2010]. A high-affinity inhibitor of human CD59 enhances complement-mediated virolysis of HIV-1: implications for treatment of НІѴ-1/ AIDS./. Immunol, 184,359-368.

19. Ibernon M, Moreso F, Seron D [2014]. Innate immunity in renal transplantation: the role of mannose-binding lectin. Transplant. Rev. (Orlando), 28,21-25.

20. Jensen TS, Bjprge L, Wollen AL, Ulstein M [1995]. Identification of the complement regulatory proteins CD46, CD55, and CD59 in human fallopian tube, endometrium, and cervical mucosa and secretion. Am. J. Reprod. Immunol, 34,1-9.

21. Kaiser P, Hardt WD [2011]. Salmonella typh- imurium diarrhea: switching the mucosal epithelium from homeostasis to defense. Curr. Opin. Immunol, 23, 456- 463.

22. Keizer MP, Wouters D, Schlapbach LJ, Kuijpers TW [2014]. Restoration of MBL-deficiency: redefining the safety, efficacy and viability of MBL-substitution therapy. Mol. Immunol, 61,174-184.

23. Kim SH, Jung DI, Yang IY, Kim J, Lee KY, Nochi T, Kiyono H, Jang YS [2011]. M cells expressing the complement C5a receptor are efficienttargets for mucosal vaccine delivery. Eur. J. Immunol, 41, 3219-3229.

24. Khan MA, Nicolls MR, Surguladze B, Saadoun I [2014]. Complementcomponents as potential therapeutic targets for asthma treatment Respir. Med., 108,543-549.

25. Kopp ZA, Jain U, Van Limbergen J, Stadnyk AW [2015]. Do antimicrobial peptides and complement collaborate in the intestinal mucosa? Front Immunol, 6,17.

26. Kweon MN [2014]. Recent progress in mucosal immunology and vaccine development Exp. Mol. Med., 46, e86.

27. Lakhtin M, Lakhtin V, Afanasiev S, Aleshkin V, Afanasiev M, Karaulov A [2014]. Human complement components C4b and C4a subisotypes patterns: resistant visible biomarkers of the system infectious and rheu- matologic diseases. Annals of the Rheumatic Diseases, 73 [2], 821.

28. Lan J, Yang K, Byrd D, Hu N, Amet T, Shepherd N, Desai M, Gao J, Gupta S, Sun Y, Yu Q [2014]. Provirus activation plus CD59 blockage triggers antibody-dependent complement-mediated lysis of latently HIV-l-infected cells./. Immunol, 193, 3577-3589.

29. Laursen NS, Gordon N, Hermans S, Lorenz N, Jackson N, Wines B, Spillner E, Christensen JB, Jensen M, Fredslund F, Bjerre M, Sottrup-Jensen L, Fraser JD, Andersen GR [2010]. Structural basis for inhibition of complement C5 by the SSL7 protein from Staphylococcus aureus. Proc. Natl. Acad. Sci. USA, 107,3681-3686.

30. Lee H, Green DJ, Lai L, Hou YJ,Jensenius JC, Liu D, Cheong C, Park CG, Zhang M [2010]. Early complement factors in the local tissue immunocomplex generated during intestinal ischemia/reperfusion injury. Mol. Immunol., 47,972-981.

31. Leito JT, Ligtenberg AJ, van Houdt M, van den Berg TK, Wouters D [2011]. The bacteria binding glycoprotein salivary agglutinin [SAG/gp340] activates complement via the lectin pathway. Mol. Immunol., 49, 185-190.

32. Lorenz N, Clow F, Radcliff FJ, Fraser JD [2013]. Full functional activity of SSL7 requires binding of both complement C5 and IgA. Immunol. Cell Biol, 91, 469-476.

33. Lu F, Fernandes SM, Davis AE 3rd [2010].The role of the complement and contact systems in the dextran sulfate sodium-induced colitis model: the effect of Cl inhibitor in inflammatory bowel disease. Am J. Physiol. Gastrointest. Liver Physiol., 298, G878-G883.

34. MasCasullo V, Fam E, Keller MJ, Herald BC [2005]. Role of mucosal immunity in preventing genital herpes infection. Viral Immunol, 18, 595-606.

35. McGreal EP, Hearne K, Spiller OB [2012]. Off to a slow start: under-developmentof the complement system in term newborns is more substantial following premature birth. Immunobiology, 217,176-186.

36. Merga Y, Campbell BJ, RhodesJM [2014]. Mucosal barrier, bacteria and inflammatory bowel disease: possibilities for therapy. Dig. Dis., 32,475-483.

37. Nuutila J, Jalava-Karvinen P, Hohenthal U, Koti- lainen P, Pelliniemi TT, Nikoskelainen J, Lilius EM [2013]. Use of complement regulators, CD35, CD46, CD55, and CD59, on leukocytes as markers for diagnosis of viral and bacterial infections. Hum. Immunol., 74,522-530.

38. Osthoff M, Trendelenburg M [2013]. Impact of mannose-binding lectin deficiency on radiocontrast-induced renal dysfunction. Biomed. Res. Int., 962695.

39. Pettengill MA, van Haren SD, Levy 0 [2014]. Soluble mediators regulating immunity in early life. Front. Immunol, 5,457.

40. Ray TL, Digre KB, Payne CD [1984]. Adherence of Candida species to human epidermal corneocytes and buccal mucosal cells: correlation with cutaneous pathogenicity. /. Invest. Dermatol., 83,37-41.

41. Reichhardt MP, Loimaranta V, Thiel S, Finne J, Meri S, Jarva H [2012]. The salivary scavenger and agglutinin binds MBL and regulates the lectin pathway of complementin solution and on surfaces. Front. Immunol, 3,205.

42. Sakaue T, Takeuchi K, Maeda T, Yamamoto Y, Nishi K, Ohkubo I [2010]. Factor H in porcine seminal plasma protects sperm against complement attack in genital tracts./. Biol. Chem., 285,2184-2192.

43. Sanchez B, Gonzalez-Rodriguez I, Arboleya S, Lopez P, Suarez A, Ruas-Madiedo P, Margolles A, Guei- monde M [2015]. The Effects of Bifidobacterium breve on Immune Mediators and Proteome of HT29 Cells Mono- layers. BioMed Research International, 479140.

44. Seitz М, Beineke А, Singpiel A, Willenborg J, Du- tow Р, Goethe R, Valentin-Weigand P, Klos A, Baums CG (2014). Role of capsule and suilysin in mucosal infection of complement-deficient mice with Streptococcus suis. Infect. Immun., 82,2460-2471.

45. Stoermer KA, Morrison ТЕ (2011). Complement and viral pathogenesis. Virology, 411, 362-373.

46. Stoiber H, Kacani L, Speth C, Wiirzner R, Dier- ich MP (2001). The supportive role of complement in HIV pathogenesis. Immunol Rev., 180,168-176.

47. Sugihara T, Kobori A, Imaeda H, Tsujikawa T, Amagase K, Takeuchi K, Fujiyama Y,Andoh A (2010). The increased mucosal mRNA expressions of complement C3 and interleukin-17 in inflammatory bowel disease. Clin. Exp. Immunol, 160, 386-393.

48. Swale A, Miyajima F, Kolamunnage-Dona R, Roberts P, Little M, Beeching NJ, Beadsworth MB, Liloglou T, Pirmohamed M (2014). Serum Mannose-binding lectin concentration, but not genotype, is associated with Clos tridium difficile infection recurrence: A prospective cohort study. Clin. Infect Dis., 59,1429-1436.

49. Tjomsland V, Ellegard R, Kjolhede P, Wodlin NB, Hinkula J, Lifson JD, Larsson M (2013). Blocking of inte- grins inhibits HIV-1 infection of human cervical mucosa immune cells with free and complement-opsonized virions. Eur. J. Immunol, 43,2361-2372.

50. WeichhartT, Haidinger M, Horl WH, Saemann MD (2008). Current concepts of molecular defense mechanisms operative during urinaiy tract infection. Eur. J. Clin. Invest., 38 (2), 29-38.

51. Wende E, Laudeley R, Bleich A, Bleich E, Wet- sel RA, Glage S, Klos A. The complement anaphylatoxin C3a receptor (C3aR) contributes to the inflammatory response in dextran sulfate sodium (DSS)-induced colitis in mice. PLoS One, 8 (4):e62257.

52. Yamamoto H, Fara AF, Dasgupta P, Kemper C (2013). CD46: the ‘multitasker’ of complement proteins. Int J. Biochem. Cell Biol, 45,2808-2820.