Vestnik On-line
Orenburg State University november 20, 2024   RU/EN
Headings of Vestnik
Pedagogics
Psychology
Other

Search
Vak
Антиплагиат
Orcid
Viniti
ЭБС Лань
Rsl
Лицензия Creative Commons

October 2017, № 9 (209), pages 100–105

doi: 10.25198/1814-6457-209-100

Khaova E.A., Kashevarova N.M., Tkachenko A.G REGULATION OF BACTERIAL PERSISTENCE BY POLYAMINES THROUGH THE STIMULATION OF EXPRESSION OF RPOS, YQJD AND RMF GENES Persisters are rare dormant variants of regular cells and are highly tolerant to antibiotics. Persisters are able to resume growth. These observations suggest that persister cells may be the main culprit responsible for the recalcitrance of chronic infectious disease to antimicrobial therapy. General stress responses and polyamines are described to responsible for the formation of persister cells.
Showed that polyamines putrescine, spermidine and cadaverine upregulate the formation of Escherichia coli persister cells in a dynamic fashion through the stimulation of expression of rpoS, yqjD and rmf genes, relating to general stress responses. Results showed that rpoS gene is the most upregulated by spermidine. The expression of yqjD gene is slightly dependent on polyamines. We obtained that the expression of yqjD is dependent on rpoS. These results are in agreement with previously published data. So, although yqjD is not referred to as a “polyamine modulon”, polyamines still can upregulate its expression indirectly through positive effects on rpoS expression. The persister cells frequency of knockout strains decreased versus their parent during the time periods of stationary phase that were specific for each gene knockout mutant. The persister cell frequency of ΔrpoS strain exhibited maximal decrease versus parental strain at early stationary phase. Therefore, the persister formation at early stationary phase is primarily dependent on rpoS gene. The persister cell frequencies of rmf and yqjD mutants decreased nearer to the lowest values versus parent at late stationary phase. These results show that rmf and yqjD genes can significantly contribute to the persister formation at late stationary phase. These data are confirmed by results, obtained with strains harboring double and triple knockout mutations.

Therefore, rpoS gene is the most upregulated by spermidine and is involved in the persister cell formation predominating at early stationary phase. rmf gene, also relating to polyamine modulon, and yqjD gene, whose expression is slightly dependent on polyamines, are involved in the persister cell formation predominating at late stationary phase.
Key words: persisters, polyamines, general stress response.

Download
References:

1. Bucharin O.V. Persistence of bacterial pathogens as a phisiologycal phenomen/ O.V. Bucharin//Annals of the Moskow University. — 2008. — №1. — p. 6-13.

2. Miller J. Experiments in molecular genetic /transl. from English by U.N. Zograf, T.S. Iljina, V.G. Nikiforov edited by S.I. Alichanjan — Moskow: Mir. — 1976. — 436 p.

3. Bacterial translocation from intestine: microbiological, immunological and pathophysiological aspects/G.I. Podoprigora, L.I. Kafarskaya, N.A. Bainov [et al]// Annals of the Russian Academy of Medical Sciences. — 2015. — №6. — p. 640-650.

4. Tkachenko A.G. Molecular mechanisms of stress responses of microorganisms/A.G. Tkachenko, — Ekaterinburg: Ural branch of the Russian Academy of Sciences, 2012. — p. 268.

5. Datsenko, K.A. One-step inactivation of chromosomal genes in Escherichia coli K-12 using PCR products / K.A. Datsenko, B.L. Wanner // PNAS. — 2000. — Vol. 97. — No. 12. — P. 6640–6645.

6. Igarashi K., Polyamine modulon in Escherichia coli: genes involved in the stimulation of Cell growth by polyamines / K. Igarashi, K. Kashiwagi // J. Biochem. — 2006. — Vol. 139. — No. 1. — P. 11-16.

7. Persister cells and tolerance to antimicrobials / I. Keren, N. Kaldalu, A. Spoering [et al] // FEMS Microbiol. Lett. — 2004. — Vol. 230. — No. 1. — P. 13-18.

8. Lewis, K. Persister cells / K. Lewis // Annual Review of Microbiology. — 2010. — Vol. 64. — P. 357-372.

9. Maisonneuve, E, Molecular mechanisms underlying bacterial persisters / E. Maisonneuve, K. Gerdes // Cell. — 2014. — Vol. 157. — No. 3. — P. 539-548.

10. Simons, R.W. Improved single and multicopy lac-based cloning vectors for protein and operon fusions / R.W. Simons, F. Houman, N. Kleckner // Gene. — 1987. — Vol. 53. — No. 1. — P. 85 — 96.

11. Tabor, C.W. Polyamines in microorganisms / C.W. Tabor, H. Tabor // Microbiological Reviews. — 1985. — Vol. 49. — No. 1. — P. 81-99.

12. Putrescine controls the formation of Escherichia coli persister cells tolerant to aminoglycoside netilmicin / A. Tkachenko, N. Kashevarova, E. Karavaeva [et al] // FEMS Microbiol. Lett. — 2014. — Vol. 361. — No. 1. — P.1-9.

13. Wada, A. Growth phase coupled modulation of Escherichia coli ribosomes / A. Wada // Genes Cells. — 1998. — Vol. 3. — No. 4. — P. 203-208.

14. Wen, Y. Toxin — antitoxin systems: their role in persistence, biofilm formation, and pathogenicity / Y. Wen, E. Behiels, B. Devreese // Pathogens and disease. — 2013. — Vol. 70. — No. 3. — P. 240-249.

15. YqjD is an inner membrane protein associated with stationary-phase ribosomes in Escherichia coli / H. Yoshida, Y. Maki, A. Sakai [et al] // J. Bacteriol. — 2012. — Vol. 194. — No. 16. — P. 4178-4183.


About this article

Authors: Haova E.A., Tkachenko A.G., Kashevarova N.M.

Year: 2017

doi: 10.25198/1814-6457-209-100

Editor-in-chief
Sergey Aleksandrovich
MIROSHNIKOV

Crossref
Cyberleninka
Doi
Europeanlibrary
Googleacademy
scienceindex
worldcat
© Электронное периодическое издание: ВЕСТНИК ОГУ on-line (VESTNIK OSU on-line), ISSN on-line 1814-6465
Зарегистрировано в Федеральной службе по надзору в сфере связи, информационных технологий и массовых коммуникаций
Свидетельство о регистрации СМИ: Эл № ФС77-37678 от 29 сентября 2009 г.
Учредитель: Оренбургский государственный университет (ОГУ)
Главный редактор: С.А. Мирошников
Адрес редакции: 460018, г. Оренбург, проспект Победы, д. 13, к. 2335
Тел./факс: (3532)37-27-78 E-mail: vestnik@mail.osu.ru
1999–2024 © CIT OSU