Irina Dobrylko scite author profile

Extracellular vesicles (EVs) released by different cell types play an important role in many physiological and pathophysiological processes. In physiological conditions, red blood cell (RBC)-derived EVs compose 4–8% of all circulating EVs, and oxidative stress (OS) as a consequence of different pathophysiological conditions significantly increases the amount of circulated RBC-derived EVs. However, the mechanisms of EV formation are not yet fully defined. To analyze OS-induced EV formation and RBC transformations, we used flow cytometry to evaluate cell esterase activity, caspase-3 activity, and band 3 clustering. Band 3 clustering was additionally analyzed by confocal microscopy. Two original laser diffraction-based approaches were used for the analysis of cell deformability and band 3 activity. Hemoglobin species were characterized spectrophotometrically. We showed that cell viability in tert-Butyl hydroperoxide-induced OS directly correlated with oxidant concentration to cell count ratio, and that RBC-derived EVs contained hemoglobin oxidized to hemichrome (HbChr). OS induced caspase-3 activation and band 3 clustering in cells and EVs. Importantly, we showed that OS-induced EV formation is independent of calcium. The presented data indicated that during OS, RBCs eliminated HbChr by vesiculation in order to sacrifice the cell itself, thereby prolonging lifespan and delaying the untimely clearance of in all other respects healthy RBCs.

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Microvesicle Formation Induced by Oxidative Stress in Human Erythrocytes

Sudnitsyna

Skverchinskaya

Dobrylko

et al. 2020

Preprint

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Extracellular vesicles (EVs) released by different cell types play significant role in many physiological and pathophysiological processes. In physiological conditions red blood cells (RBCs) derived EVs compose 4 - 8% of all circulating EVs, and oxidative stress (OS) as a consequence of different pathophysiological conditions significantly increases the amount of circulated RBC-derived EVs, however the mechanisms of EV formation are not fully defined yet. To analyze OS-induced EV formation and RBCs transformations we used flow cytometry to evaluate cell esterase activity, caspase-3 activity, and band 3 clustering. Band 3 clustering was additionally analyzed by confocal microscopy. Two original laser diffraction-based approaches were used for analysis of cell deformability and band 3 activity. Hemoglobin species were characterized spectrophotometrically. We showed that cell viability in tert-butyl hydroperoxide-induced OS directly correlated with oxidant concentration to cell count ratio, RBCs-derived EVs contained hemoglobin oxidized to hemichrome (HbChr). OS induced caspase-3 activation and band 3 clustering in cells and EVs. Importantly, we showed that OS-induced EV formation is independent from calcium. Presented data indicated that during OS RBCs eliminate HbChr by vesiculation, in order to sacrifice the cell itself thereby prolonging lifespan and delaying the untimely clearance of in all other respects healthy RBCs.

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Abnormalities of elastic and transporting properties of red blood cells under development of apoptosis

Mindukshev

Krivoshlyk

Dobrylko

et al. 2010

Biochem. Moscow Suppl. Ser. A

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Erythrocytes’ Reactions to Osmotic, Ammonium, and Oxidative Stress Are Inhibited under Hypoxia

Mindukshev

Sudnitsyna

Skverchinskaya

et al. 2019

Biochem. Moscow Suppl. Ser. A

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Platelet Hemostasis Reactions at Different Temperatures Correlate with Intracellular Calcium Concentration

Mindukshev

Fock

Dobrylko

et al. 2022

IJMS

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Hypo- and hyperthermia affect both primary and secondary hemostasis; however, there are controversial data concerning platelet activation and the underlying mechanisms under hypo- and hyperthermia. The discrepancies in the data could be partly explained by different approaches to hemostatic reactions analysis. We applied a new LaSca-TMF laser particle analyzer for a simultaneous fluorescence and laser scattering analysis of platelet responses at different temperatures. Human platelets were activated by ADP in a wide range of temperatures, and platelet transformations (e.g., a shape change reaction, aggregation and clot formation) and the intracellular calcium concentration ([Ca2+]i) were analyzed by LaSca-TMF and confocal microscopy. The platelet shape change reaction gradually increased with a rising temperature. The platelet aggregation strongly decreased at low ADP concentrations with the augmentation of the temperature and was independent of the temperature at high ADP concentrations. In contrast, the clotting time decreased with a temperature increase. Similar to the aggregation response, a rise in [Ca2+]i triggered by low ADP concentrations was higher under hypothermic conditions and the differences were independent of the temperature at high ADP concentrations. We showed that the key reactions of cellular hemostasis are differentially regulated by temperature and demonstrated for the first time that an accelerated aggregation under hypothermic conditions directly correlated with an increased level in [Ca2+]i in platelets.

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Irina Dobrylko

Microvesicle Formation Induced by Oxidative Stress in Human Erythrocytes

Microvesicle Formation Induced by Oxidative Stress in Human Erythrocytes

Abnormalities of elastic and transporting properties of red blood cells under development of apoptosis

Erythrocytes’ Reactions to Osmotic, Ammonium, and Oxidative Stress Are Inhibited under Hypoxia

Platelet Hemostasis Reactions at Different Temperatures Correlate with Intracellular Calcium Concentration

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