TECHNOLOGIES OF IMMUNOGENETIC STUDIES FOR EVALUATION OF THE ENVIRONMENTAL FACTORS INFLUENCING THE PUBLIC HEALTH

Article Sidebar

PDF (Русский)
Published: Oct 25, 2018
Keywords:
sequencing gene polymorphism strontium

Main Article Content

Олег Владимирович Долгих
FBSI "Federal Scientific Center for Medical and Preventive health Risk Management Technologies"; Perm State University
Александр Владимирович Кривцов
FBSI "Federal Scientific Center for Medical and Preventive health Risk Management Technologies"
Ксения Геннадьевна Старкова
FBSI "Federal Scientific Center for Medical and Preventive health Risk Management Technologies"
Ольга Алексеевна Бубнова
FBSI "Federal Scientific Center for Medical and Preventive health Risk Management Technologies"
Елена Алексеевна Отавина
FBSI "Federal Scientific Center for Medical and Preventive health Risk Management Technologies"
Инга Николаевна Аликина
FBSI "Federal Scientific Center for Medical and Preventive health Risk Management Technologies"; Perm State University
Надежда Владимировна Безрученко
FBSI "Federal Scientific Center for Medical and Preventive health Risk Management Technologies"; Perm State University
Максим Анатольевич Гусельников
Perm State University

Abstract

The aim of this study is to develop the technologies, principles and methodological approaches for identification of the genetic markers of early disturbances in immune status of the population in conditions of chronic exposure to man-made factors. The DNA detection by PCR assay and sequencing of the polymorphic variants of the regulatory and exon regions of 37 genes, including, CYP 1A1, MTHFR, APO-E, CPOX, VEGF, NO-synthase, MMP, FAS, FOXp3, TNFalfa, HLA DR, p53, BRCA1, etc. were executed. The offered methodical approaches include the identification of the following groups of polymorphism: enzymes of variant genes of the 1 st and 2nd detoxification phase; genes of proteins involved both in metabolic processes and in pathogenesis of the target organs' diseases (matrix metal loproteinase gene, endothelial growth factor gene) induced by technogenic factors; genotyping of the predisposition to cancer proliferative status; detection of the immunogenetic markers. The SNP-peculiarities in children living in the conditions of exposure to strontium and nitrates have been identified. They were characterized by the excessive incidence of the variant alleles of cytochrome p450 genes, endothelial growth factor (VEGF) and coproporphyrinogen oxidase (CPOX). The modern biomedical technologies for the typing of the variant gene allow identifying the candidate polymorphisms capable to occur in specific environmental conditions. 

Article Details

How to Cite
Долгих, О. В., Кривцов, А. В., Старкова, К. Г., Бубнова, О. А., Отавина, Е. А., Аликина, И. Н., Безрученко, Н. В., & Гусельников, М. А. (2018). TECHNOLOGIES OF IMMUNOGENETIC STUDIES FOR EVALUATION OF THE ENVIRONMENTAL FACTORS INFLUENCING THE PUBLIC HEALTH. Bulletin of Perm University. Biology, (4), 368–373. Retrieved from https://press.psu.ru/index.php/bio/article/view/1775
Issue
No. 4 (2016): Вестник Пермского университета. Серия «Биология»=Bulletin of Perm University. Biology
Section
Ecology

License agreement

 

Author Biographies

Олег Владимирович Долгих, FBSI "Federal Scientific Center for Medical and Preventive health Risk Management Technologies"; Perm State University

Doctor of Medicine, head of the Department of Immunobiological Diagnostic Methods;Professor of the department of Human Ecology and Life Safety

Александр Владимирович Кривцов, FBSI "Federal Scientific Center for Medical and Preventive health Risk Management Technologies"

Candidate of Medicine, Head of the department of immunogenetics

Ксения Геннадьевна Старкова, FBSI "Federal Scientific Center for Medical and Preventive health Risk Management Technologies"

Head of the department of immunology and allergology

Ольга Алексеевна Бубнова, FBSI "Federal Scientific Center for Medical and Preventive health Risk Management Technologies"

Junior researcher laboratory of immunogenetics, postgraduate

Елена Алексеевна Отавина, FBSI "Federal Scientific Center for Medical and Preventive health Risk Management Technologies"

Junior researcher laboratory of immunology and allergology, postgraduate

Инга Николаевна Аликина, FBSI "Federal Scientific Center for Medical and Preventive health Risk Management Technologies"; Perm State University

Laboratory researcher of the department of immunogenetics;Graduated student of biological faculty

Надежда Владимировна Безрученко, FBSI "Federal Scientific Center for Medical and Preventive health Risk Management Technologies"; Perm State University

Laboratory researcher of the department of immunology and allergology;Graduated student of biological faculty

Максим Анатольевич Гусельников, Perm State University

Магистрант биологического факультета

References

Венгеровский А.И., Хлусов И.А., Нечаев К.А. Молекулярные механизмы действия бисфосфона-тов и стронция ранелата // Экспериментальная и клиническая фармакология. 2014. Т. 77 (9). С. 43-46.

Долгих О.В. и др. Иммунная система и ее генетические ассоциации у детей при комбинированном внешнесредовом воздействии // Вестник КазНМУ. 2014. № 3(1). С. 60-63.

Долгих О.В. и др. Особенности иммунной и генетической дезадаптации у детей в условиях избыточной гаптенной нагрузки // Российский иммунологический журнал. 2014. № 8(17). С. 299-302.

Долгих О.В., Кривцов А.В., Харахорина Р.А. Иммунные и ДНК-маркеры воздействия техногенной нагрузки // Вестник Уральской медицинской академической науки. 2012. № 4. С. 240-241.

Зайцева Н.В. и др. Особенности иммунной регуляции у детей в условиях комбинированного внешнесредового воздействия металлов и органических соединений // Академический журнал Западной Сибири. 2014. Т. 10, № 2. С. 107-108.

Зайцева Н.В., Устинова О.Ю., Аминова А.И. Гигиенические аспекты нарушения здоровья детей при воздействии химических факторов среды обитания. Пермь: Кн. формат, 2011. 489 с.

Caverzasio J., Thouverey С. Activation of FGF receptors is a new mechanism by which strontium rane-late induces osteoblastic cell growth // Cell. Physiol. Biochem. 2011. Vol. 27, № 3-4. P. 243-250.

Dolgikh O. et al. Molecular markers of apoptosis in industrial workers // In vivo: international Journal of Experimental and Clinical Pathophysiology and Drub Research. 2011. Vol. 25, № 3. P. 523-524

Fromigue O., Hay E., Barbara A. Calcium sensing receptor-dependent and receptor-independent activation of osteoblast replication and survival by strontium ranelate // JCMM. 2009. Vol. 13 (8B). P. 2189-2199.

Hurtel-Lemaire A.S. et al. The calcium-sensing receptor is involved in strontium ranelate-induced osteoclast apoptosis. New insights into the associated signaling pathways // JBC. 2009. Vol. 284. P. 575-584.

Krzystyniak K et. al. Approaches to the evaluation of chemical-induced immunotoxicity // Environ Health Perspect. 1995. Vol. 103, suppl 9. P. 17.

Los M. et al. Switching Akt: From survival signaling to deadly response // BioEssays. 2009. Vol. 31 (5). P. 492-495.

Yang F. et al. Strontium enhances osteogenic differentiation of mesenchymal stem cells and in vivo bone formation by activating Wnt/catenin signaling// Stem cells. 2011. doi: 10.1002/stem.646.

Yurchenko M., Shlapatska L.M., Sidorenko S.P. The multilevel regulation of CD95 signaling outcome //Exp. oncol. 2012. Vol. 34 (3). P. 200-2011.

__________________________________________________________

Vengerovskiy A.I., Khlusov I.A., Nechaev K.A. [Molecular action mechanisms of bisphosphonates and strontium ranelate]. Eksperimentalnaja i kliniceskaja farmakologija. No. 77 (9) (2014): pp. 43-46. (In Russ.).

Dolgikh O.V., Zaitseva N.V., Krivtsov A.V., Gorshkova K.G., Lanin D.V.,

Bubnova O.A. [The immune system and its genetic associations in children under combined environmental influence]. Vestnik KazNMU. No. 3(1) (2014): pp. 60-63. (In Russ.).

Dolgikh O.V., Zaitseva N.V., Luzhetskiy K.P., Andreeva E.E. [Peculiarities of immune and genetic disadapta-tion in children under excess haptenic load]. Rossiy-skij immunologiceskij zurnal. No. 8(17) (2014): pp. 299-302. (In Russ.).

Dolgikh O.V., Krivtsov A.V., Kharakhorina RA. [Immune and DNA-markers of the influence of man-caused load]. Vestnik Ura'lskoj meditcinskoj akade-miceskoj nauki. No. 4 (2012): pp. 240-241. (In Russ.).

Zaitseva N.V., Dolgikh O.V., Gorshkova K.G., Predeina RA., Lanin D.V. [Peculiarities of the immune regulation in children under combined environmental influence of metals and organic compounds]. Akademi-ceskij zurnal Zapadnoj Sibiri. V. 10 No. 2 (2014): pp. 107-108. (In Russ.).

Zaitseva N.V., Ustinova O.Yu., Aminova A.I. Gigien-iceskie aspekty narusenija zdorovija detej pri vozde-istvii chimiceskich faktorov sredy obitanija [Hygienic aspects of children's health disorders under the influence of environmental chemical factors]. Perm, Kniznyj format Publ., 2011. 489 p. (In Russ.).

Caverzasio J., Thouverey C. Activation of FGF receptors is a new mechanism by which strontium ranelate induces osteoblastic cell growth. Cellular Physiology and Biochemistry. No. 27 (3-4) (2011): pp. 243-250.

Dolgikh O., Zaitseva N, Dianova D., Krivtsov A. Molecular markers of apoptosis in industrial workers. In vivo: international Journal of Experimental and Clinical Pathophysiology and Drug Research. V. 25 No. 3 (2011): pp. 523-524.

Fromigue O., Hay E., Barbara A. Calcium sensing receptor-dependent and receptor-independent activation of osteoblast replication and survival by strontium rane-late. Journal of Cellular and Molecular Medicine. No. 13 (8B) (2009): pp. 2189-2199.

Hurtel-Lemaire A.S., Mentaverri R., Caudrillier A., Cournarie F., Wattel A., Kamel S., Terwilliger E.F., Brown E.M., Brazier M. The calcium-sensing receptor is involved in strontium ranelate-induced osteoclast apoptosis. New insights into the associated signaling pathways. The Journal of Biological Chemistry. No. 284 (2009): pp. 575-584.

Krzystyniak K. et. al. Approaches to the evaluation of chemical-induced immunotoxicity. Environ Health Perspect. No. 103, suppl. 9 (1995): p. 17.

Los M., Maddika S., Erb В., SchulzeOsthoff К. Switching Akt: From survival signaling to deadly response. BioEssays. No. 31 (5) (2009): pp. 492-495.

Yang F., Yang D., Tu J., Zheng Q., Cai L., Wang L. Strontium enhances osteogenic differentiation of mesenchymal stem cells and in vivo bone formation by activating Wnt/catenin signaling. Stem cells. (2011): doi: 10.1002/stem.646.

Yurchenko M., Shlapatska L.M., Sidorenko S.P. The multilevel regulation

of CD95 signaling outcome. Experimental oncology. No. 34 (3) (2012): pp. 200-2011.

Most read articles by the same author(s)