• Title of article

    Temperature-dependent changes in erythrocytesʹ cytosol state during natural and artificial hypobiosis

  • Author/Authors

    Repina، نويسنده , , S.V. and Nardid، نويسنده , , O.A. and Marchenko، نويسنده , , V.S. and Shilo، نويسنده , , A.V.، نويسنده ,

  • Issue Information
    روزنامه با شماره پیاپی سال 2004
  • Pages
    4
  • From page
    187
  • To page
    190
  • Abstract
    At present, the question of how the structural state of the erythrocyte cytosol is arranged to maintain essential permeabilities successfully both at normal temperature and during periods with a significant body temperature reduction during hypobiosis remains unanswered. present work, we performed comparative investigations of temperature-dependent changes in the cytosol state of erythrocytes from animals subjected to natural (winter hibernating ground squirrels) or artificial hypobiosis. The cytosol state was evaluated by the ESR method of spin probes (TEMPON) within the temperature range of 0–50 °C. Erythrocyte resistance to acid hemolysis, which is limited by the permeability of membranes for protons and the state of the anion channel, were determined using the method described by Terskov and Getelson [Biofizika 2 (1957) 259]. A change in cytosol microviscosity of erythrocytes was found as well as a temperature-dependent increase in acid resistance of erythrocytes. vestigations allow us to conclude that physiological changes occurring in a mammalian organism during natural and artificial hypobiosis are accompanied by structural modifications of the erythrocyte cytosol. mperature range where these modifications are observed (8, 15, 40 °C) suggests that the most probable modifying link is spectrin and/or the sites of its interaction with membrane. The interaction of cytoskeletal components with the cell membrane plays a key role in regulation of membrane permeability, suggesting an important role of this interaction in the adaptive reactions of erythrocytes.
  • Keywords
    erythrocyte , Permeability , Adaptation , Cytosol
  • Journal title
    Bioelectrochemistry
  • Serial Year
    2004
  • Journal title
    Bioelectrochemistry
  • Record number

    1450852