摘要In this work, from the point of calcium ions in the cytosol, we extend a Vm-[Ca2+]cyt model to explain the changes of action potential Vm of the plasma membrane and the calcium concentration in the cytosol [Ca2+]cyt under an alternating electric field in cells. An alternating external electric field may exert an oscillating force to each of the free electrolytes, existing on both sides of the plasma membrane. The mechanism for the alternating electric field induced-effects on Vm and [Ca2+]cyt is elucidated. The simulation results show a correlation between the changes of [Ca2+]cyt and the alternating electric field. When the numerical ratio between the intensity E0(mV/m) and the frequency υ (Hz) of the field was about 1-2, the [Ca2+]cyt signal is changed dramatically. The bioactive changes of [Ca2+]_cyt appear at low frequency, in the range of 0-100Hz.
Abstract:In this work, from the point of calcium ions in the cytosol, we extend a Vm-[Ca2+]cyt model to explain the changes of action potential Vm of the plasma membrane and the calcium concentration in the cytosol [Ca2+]cyt under an alternating electric field in cells. An alternating external electric field may exert an oscillating force to each of the free electrolytes, existing on both sides of the plasma membrane. The mechanism for the alternating electric field induced-effects on Vm and [Ca2+]cyt is elucidated. The simulation results show a correlation between the changes of [Ca2+]cyt and the alternating electric field. When the numerical ratio between the intensity E0(mV/m) and the frequency υ (Hz) of the field was about 1-2, the [Ca2+]cyt signal is changed dramatically. The bioactive changes of [Ca2+]_cyt appear at low frequency, in the range of 0-100Hz.
(Classical theories of reactions and/or energy transfer)
引用本文:
LUO Ming-Yan;SONG Kun;ZHANG Xu;LEE Imshik. Mechanism for Alternating Electric Fields Induced-Effects on Cytosolic Calcium[J]. 中国物理快报, 2009, 26(1): 17102-017102.
LUO Ming-Yan, SONG Kun, ZHANG Xu, LEE Imshik. Mechanism for Alternating Electric Fields Induced-Effects on Cytosolic Calcium. Chin. Phys. Lett., 2009, 26(1): 17102-017102.
[1] Panagopoulos D J et al 2000 Biochem. Biophys. Res.Commun. 272 634 [2] Panagopoulos D J et al 2002 Biochem. Biophys. Res.Commun. 298 95 [3] Brighton C T et al 2001 J. Bone Joint Surgery. 83 1514 [4] Khatib L et al 2004 FASER. J. 10 1096 [5] Galvanovskis J et al 1996 Sci. Total Environ. 180 19 [6] Galvanovskis J et al 1999 Bioelectromagnetics 20 269 [7] Galvanovskis J et al 1998 Bioelectrochem.Bioenerget. 46\, 161 [8] Sandblom J et al 2000 Chaos Solitons Fractals 11 1905 [9] Torres J J et al 2004 Am. J. Physiol. Cell.Physiol. 287 851 [10] Kusters J M A M et al 2005 Biophys. J. 89 3741 [11] Liman E R et al 1991 Nature 353 752 [12] Adair R K et al 1991 Physica 61 395 [13] Balcavage W X et al 1996 Biochem. Biophys. Res.Commun. 222 374 [14] Wei L X et al 1990 Bioeletromagnetics 1 269 [15] Adey W R, Norden B and Ramel C 1992 CollectiveProperties of Cell Membranes: Interaction Mechanisms of Low LevelElectromagnetic Fields in Living Systems (Oxford: OxfordUniversity) pp 47--77 [16] Liman E R et al 1991 Nature 353 752 [17] Bezanilla F et al 1982 Nature 296 657 [18] Lu S T et al 1999 Physiol. Behav. 67 753