Действие трифторперазина на гемолиз эритроцитов в гипертонических растворах электролитов

Действие трифторперазина на гемолиз эритроцитов в гипертонических растворах электролитов

Manifestation of antihemolytic activity of trifluoperazine (TFP) during hypertonic hemolysis of erythrocytes depends on temperature and state of cells. Both the reduction of temperature down to 0°C and preliminary incubation of cells in presence of 0.7 M NaCl result in decrease of antihemolytic act...

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Bibliographic Details
Date:2002
Main Authors: Shpakova, N. M., Dunaevskaya, O. N., Synchikova, O. P., Bondarenko, V. A.
Format: Article
Language:English
Published: Publishing House ‘Akademperiodyka’ of the National Academy of Sciences of Ukraine; Institute for Problems of Cryobiology and Cryomedicine 2002
Online Access:https://cryo.org.ua/journal/index.php/probl-cryobiol-cryomed/article/view/952
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Journal Title:Problems of Cryobiology and Cryomedicine

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Problems of Cryobiology and Cryomedicine
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Summary:Manifestation of antihemolytic activity of trifluoperazine (TFP) during hypertonic hemolysis of erythrocytes depends on temperature and state of cells. Both the reduction of temperature down to 0°C and preliminary incubation of cells in presence of 0.7 M NaCl result in decrease of antihemolytic activity of trifluoperazine at the removal of cells into 4.0 M NaCl. Combined action of low temperature and preliminary dehydration are accompanied by inversion of the effect of the amphiphile and supplementary lysis of cells in 4.0 M NaCl. Cell treatment by neuraminidase and proteolytic enzymes does not affect the manifestation of antihemolytic activity of trifluoperazine during hypertonic hemolysis of erythrocytes at 37°C, the preliminary dehydration of such kind of cells results in its decrease. Modification of membrane glycoproteins as a result of treatment by proteolytic enzymes is accompanied by increase in antihemolytic activity of trifluoperazine at 0°C. The results obtained are discussed from the point of view of processes underlying the formation and stabilization of transmembrane defects. 

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