ROLE OF BIOFILMS IN SURVIVAL AND PRESERVATION OF VIRULENCE OF CHOLERA VIBRIOS IN THE ENVIRONMENT AND HUMAN ORGANISM

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Abstract

Materials regarding biofilms of cholera vibrios are presented. Formation of biofilms is shown to be a significant pathogenicity factor and one of the main strategies, increasing survival of cholera vibrios in human organism and the environment.

About the authors

S. V. Titova

Rostov-on-Don Institute for Plague Control

Author for correspondence.
Email: noemail@neicon.ru
Россия

L. P. Alekseeva

Rostov-on-Don Institute for Plague Control

Email: noemail@neicon.ru
Россия

I. T. Andrusenko

Rostov-on-Don Institute for Plague Control

Email: noemail@neicon.ru
Россия

References

  1. Блинкова Л.П. Перспективы использования бактериоцинов для профилактики и терапии инфекций. Журн. микробиол. 1984, 5: 10-15.
  2. Голубев Б.П. Экологические аспекты распространения вибрионов Эльтор в объектах окружающей среды. Автореф. дис. канд. мед. наук. Саратов, 1993.
  3. Лахтин В.М., Алешкин В.А., Лахтин М.В. и др. Лектины, адгезины и лектиновые вещества лактобацилл и бифидобактерий. Вестник РАМН. 2006, 1: 28-34.
  4. Маркина О.В., Шелохович А.И., Терентьев А.Н. и др. Стабилизированные фазовые варианты Vibrio cholerae El Tor P-18895. В: Холера и патоген, для человека вибрионы. Ростов-на-Дону, Дониздат, 2014, 27: 112-114.
  5. Мишанькин Б.Н., Дуванова О.В., Романова Л.В. и др. Мембранный белок ОтрТ холерного вибриона как возможный представитель омптинов семейства Vibrionaceae. Проблемы особо опасных инфекций. 2014, 3: 52-56.
  6. Мишанькин Б.Н., ШиманюкН.Я., Водопьянов С.О. идр. Изучение хитинолитического комплекса холерного вибриона сероварианта 0139. Биотехнология. 2010, 1: 32-40.
  7. Мишанькин Б.Н., Дуванова О.В., Шипко Е.С. и др. Система активации плазминогена у Vibrio cholerae. Журн. микробиол. 2013, 5: 13-20.
  8. Сизова Ю.В., Черепахина И.Я., Балахнова В.В. идр. Вариабельность свойств, характеризующих способность к выживанию холерных вибрионов в биопленочных сообществах. Пробл. особо опасных инф. 2012, 3 (113): 54-57.
  9. ШиманюкН.Я., Дуванова, О.В., Сучков И.Ю. идр. Нейраминидаза Vibrio cholerae 0139 «Бенгал»: обнаружение, очистка и некоторые свойства. Биотехнология, 1999, 3: 56-62.
  10. Augustine N., Peter A.W., Kerkar S., Thomas S. Arctic actinomycetes as potential inhibitors of Vibrio cholerae biofilm. Curr. Microbiol. 2012, 64 (4): 338-342.
  11. Berk V., Fong J.C., Dempsey G.T. et al. Molecular architecture and assembly principles of Vibrio cholerae biofilms. Science. 2012, 337 (6091): 236-239.
  12. Blokesch M. Chitin colonization, chitin degradation and chitin-induced natural competence of Vibrio cholerae are subject to catabolite repression. Environ. Microbiol. 2012, 14 (8): 1898-1912.
  13. Boyhan S., Beyhan S., Tischler A.D. et al. Transcriptome and phenotypic responses of Vibrio cholerae to increased cyclic di-GMP level. J. Bacteriol. 2006, 188 (10): 3600-3613.
  14. Castro-Rosas J., Escartin, E.F. Increased toleranceof Vibrio cholerae 01 to temperature, pH, or dryingassociated with colonization of shrimp carapaces. Int. J. Food Microbiol. 2005,102: 195-201.
  15. Costerton J.W., Stewart P.S., Greenberg E.P. Bacterial biofilms: a common cause of persistentinfections. Science. 1999, 284: 1318-1322.
  16. Emch M., Feldacker C., Yunus M. et al. Effects of global climate on infectious disease: the cholera model. Am. J. Trap. Med. Hyg. 2008, 78: 823-832.
  17. Faruque S.M., Albert M.J., Mekalanos J.J. Epidemiology, genetics, and ecology of toxigenic Vibrio cholera. Microbiol. Mol. Biol. Rev. 1998, 62 (4): 1301-1314.
  18. Faruque S.M., Biswas K., Udden S.M. etal. Transmissibility of cholera: in vivo-formed biofilms and their relationship to infectivity and persistence in the environment. Proc. Nat. Acad. Sci. USA. 2006, 103 (16): 6350-6355.
  19. Franklin A., Soderlind O., Mollby R. Plasmids coding for enterotoxins, K88 antigen and colicins in porcine Escherichia coli strains of O-group 149. Med. Microbiol. Immunol. 1981,170:63-72.
  20. Giglio K.M., Fong J.C., Yildiz F.H., Sondermann H. Structural basis for biofilm formation via the Vibrio cholerae matrix protein RbmA. J. Bacteriol. 2013, 195 (14): 3277-3286.
  21. Gillor O., Kirkur B.C., Riley M.A. Colicins and microcins: the next generation antimimicro-bials. Adv. Appl. Microbiol. 2004, 54: 129-146.
  22. Gopalakrishnan S., Durai M., Kitchens K. et al. Larazotide acetate regulates epithelial tight junctions in vitro and in vivo. Peptides. 2012, 35 (1): 86-94.
  23. Hartley D.M., Morris J.M., Smith D.L. Hyperinfectivity: a critical element in the ability ofV. cholerae to cause epidemics? PLoS. Med. 2006, 3 (1): e7.
  24. Islam M.S., Drasar B.S., Bradley D.J. Survival of toxigenic Vibrio cholerae 01 with a common duckweed, Lemna minor, in artificial aquatic ecosystems. Trans. R. Soc. Trop. Med. Hyg. 1990, 84 (3): 422-424.
  25. Kaplan J.B., Ragunath C., Ramasubbu N., Fine D.H. Detachment of Actinobacillus actinomycetemcomitans biofilm cells by an endogenous (5-hexosaminidase activity. J. Bacteriol. 2003, 185 (16): 4693-4698.
  26. Maestre-Reyna M., Wu W.J., Wang A.H. Structural insights into RbmA, a biofilm scaffolding protein ofV. cholerae. PLoS One. 2013, 8 (12): e82458.
  27. Moorthy S., Watnic P.I. Genetic evidence that the Vibrio cholerae monolayer is a distinct stage in biofilm development. Mol. Microbiol. 2004, 52 (2): 573-587.
  28. Mudrak B., Tamayo R. The Vibrio cholerae Pst2 phosphate transport system is upregulated in biofilms and contributes to biofilm-induced hyperinfectivity. Infect. Immun. 2012, 80 (5): 1794-1802.
  29. Olivier V, Queen J., Satchell K.J.F Successful small intestine colonization of adult mice by Vibrio cholerae requires ketamine anesthesia and accessory toxins. PLoS One. 2009, 4 (10): e7352.
  30. Parker Z.M., Pendergraft S.S., Sobieraj J. et al. Elevated levels ofthe norspermidine synthesis enzyme NspC enhance Vibrio cholerae biofilm formation without affecting intracellular norspermidine concentrations. Expert Rev. Gastroenterol. Hepatol. 2012, 6 (1): 17-23.
  31. Purdy A.E., Watnick P.I. Spatially selective colonization of the arthropod intestine through activation of Vibrio cholerae biofilm formation. Proc. Nat. Acad. Sci. USA. 2011, 108 (49): 19737-19742.
  32. Ray V.A., Morris A.R., Visick K.L. A semi-quantitative approach to assess biofilm formation using wrinkled colony development. J. Vis. Exp. 2012, 64: pii-4035.
  33. Seper A., Fengler V.H., Roier S. et al. Extracellular nucleases and extracellular DNA play important roles in Vibrio cholerae biofilm formation. Mol. Microbiol. 2011, 82 (4): 1015-1037.
  34. Spagnuolo M.A., Dirita V, Kirschner D. A model for Vibrio cholerae colonization of the human intestine. J. Theor. Biol. 2011, 289: 247-258.
  35. Suckow G., Seitz P., Blokesch M. Quorum sensing contributes to natural transformation of Vibrio cholerae in a species-specific manner. J. Bacteriol. 2011, 193 (18): 4914-4924.
  36. Tamayo R., Pratt J.T., Camilli A. Roles of cyclic diguanylate in the regulation of bacterial pathogenesis. Annual Rev. Microbiol. 2007, 61: 131-148.
  37. Tamayo R., PatimallaB., Camilli A. Growth in a biofilm induces a hyperinfectious phenotype in Vibrio cholerae. Infect. Immun. 2010, 78 (8): 3560-3569.
  38. Valeru S.P., Wai S.N., Saeed A. et al. ToxR of Vibrio cholerae affects biofilm, rugosity and survival with Acanthamoeba castellanii. BMC Res. Notes. 2012, 5 (1): 33.
  39. Watnick P.I., Kolter R. Steps in the development of a Vibrio cholerae El Tor biofilm. Mol. Microbiol. 1999, 34: 586-595.
  40. Zettler Erik R., Tracy J. Mincer, Linda A. Amaral-Zettler. Life in the «Plastisphere»: Microbial communities on plastic marine debris. Envir. Sci.Technol. 2013, 47 (13): 7137-7146.

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Copyright (c) 2016 Titova S.V., Alekseeva L.P., Andrusenko I.T.

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