Modification of immunocytes viable parameters in children associated with combined exposure to chemical technogenic and extreme climatic factors
Автор: Alikina I.N., Dolgikh O.V.
Журнал: Анализ риска здоровью @journal-fcrisk
Рубрика: Медико-биологические аспекты оценки воздействия факторов риска
Статья в выпуске: 3 (35), 2021 года.
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The article dwells on results obtained via immunologic parameters of immunocytes death among children living and attending educational establishments in regions beyond the Polar circle where industry was developing rather intensely. Our research goal was to examine early disorders in immunologic profile as per immunocytes death among children living in Polar Regions under combined exposure to adverse chemical technogenic and extreme climatic factors. 75 children took part in the research (a test group); they lived and attended educational establishments in regions beyond the Polar circle where industry was developing rather intensely. Benzpyrene is a priority chemical exogenous factor in this region and a climatic one is extremely low temperature in winter (average temperature is -33,8 оС in this season). A reference group was made up of children (n = 35) who lived and attended educational facilities in Polar Regions where there was no exposure to technogenic chemical factors. The authors analyzed several immunogram parameters including CD3+CD95+, Annexin-V presenting cells, TNFRα, CD3+HLA-DR+, bax and p53. Cell death parameters were examined with fluorescent analysis via flow cytometry. Also, the authors assessed specific sensitivity of IgG to benzpyrene via allergosorbent testing with enzyme marker. The research revealed hyperexpression of lymphocytes-cellular profile parameters in children from the test group in comparison with the reference one. They had 1.4 times higher expression of immunocytes stained with AnnexinV and a number of cells stained with PI (Propidium Iodide) was considerably higher than a number of cells stained with AnnexinV as well as the same parameters in the reference group(by 1.5 times) thus indicating that immunocytes predominantly die due to necrosis. There was hyperexpression of HLA-DR+ receptor on lymphocytes (both its relative and absolute quantity in 12.4-13.7 % children). Expression of CD95+ receptor (a membrane marker of immunocytes apoptosis) was 1.3 and 1.4 times higher (relative and absolute value accordingly).The authors detected an authentically elevated contents of tumor necrosis factor receptor (TNFR) as well as intracellular anti-tumor antigen p53, and antiapoptotic protein bax that were by 1.5, 1.2 and 1.3 times higher accordingly (р+СD95+(RR = 5.42), HLA-DR+ (RR = 4.80) that were apoptosis affectors and for intracellular transcription factors bax (RR = 4.55) and p53 (RR = 3.71) that modulated apoptogenic signals. This risk was associated with combined exposure to chemical tehcnigenic and extreme climatic conditions. It wasestablished that children living in the Polar Regions under combined exposure to chemical technogenic and extreme climatic conditions had imbalance in the immune status that became apparent via excessive expression of membrane (HLA-DR+, CD95+, TNFR) and intracellular (p53, bax) parameters with cell death program shifting towards necrosis (as opposed to the reference group that was exposed only to extreme climatic factors). These parameters indicate there is immune deficiency and a significant probability of viral infections and their complications.
Cell death, immunogram, children, extreme climatic conditions, benzpyrene
Короткий адрес: https://sciup.org/142231421
IDR: 142231421 | DOI: 10.21668/health.risk/2021.3.12