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International Journal of Radiation Biology Volume 77, 2001 - Issue 2
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Research Article

Calcium spiking activity and baseline calcium levels in ROS 17/2.8 cells exposed to extremely low frequency electromagnetic fields (ELF EMF)

R. Shahidain Department of Microbiology and Immunology, University of Kentucky College of Medicine, Lexington, KY 40536, USA and Division of Mathematics and Sciences, Kentucky State University, Frankfort, KY 40601, USA; Department of Microbiology and Immunology, University of Kentucky College of Medicine, Lexington, KY 40536, USA and Department of Cellular and Molecular Pharmacology, University of California San Francisco, School of Medicine, San Francisco, CA 94143-0448, USA
,
R. D. Mullins Department of Microbiology and Immunology, University of Kentucky College of Medicine, Lexington, KY 40536, USA and Division of Mathematics and Sciences, Kentucky State University, Frankfort, KY 40601, USA; Department of Microbiology and Immunology, University of Kentucky College of Medicine, Lexington, KY 40536, USA
&
J. E. Sisken Department of Microbiology and Immunology, University of Kentucky College of Medicine, Lexington, KY 40536, USA and Division of Mathematics and Sciences, Kentucky State University, Frankfort, KY 40601, USA
Pages 241-248 | Published online: 03 Jul 2009

  • BISHOP, J. M., 1985, Viral oncogenes. Cell, 42, 23-38.
  • BOORMAN, G. A., OWEN, R. D., LOTZ, W. G. and GALVIN, JR, M. J., 2000, Evaluation of in vitro effects of 50 and 60 Hz magnetic fields in regional EMF exposure facilities. Radiation Research, 153, 648-657.
  • CARSON, J. J. L. and PRATO, F. L., 1995, Cytosolic free Ca2+ in HL-60 cells during exposure to a pulsed gradient magnetic field. Paper presented at the 17th Annual Meeting of the Bioelectromagnetics Society, 18-22 June, Boston, MA.
  • CARSON, J. J. L., PRATO, F. S., DROST, D. J., DIESBOURG, L. D. and DIXON, S. J., 1990, Time-varying magnetic fields increase free Ca2 + in HL-60 cells. American Journal of Physiology, 259 (Cell Physiol.), C687-C692.
  • CHO, M. J., THATTE, H. S., SILVIA, M. T. and GOLAN, D. E., 1999, Transmembrane calcium influx induced by ac electric fields. FASEB Journal, 13, 677-683.
  • FANELLI, C., COPPOLA, S., BARONE, R., COLUSSI, C., GUALANDI, G., VOLPE, P. and GHIBELLI, L., 1999, Magnetic fields increase cell survival by inhibiting apoptosis via modulation of Ca2+ influx. FASEB Journal, 13, 95-102.
  • FECHHEIMER, M., BOYLAN, J. F., PARKER, S., SISKEN, J. E., PATEL, G. L. and ZIMMER, S. G., 1987, Transfection of mammalian cells with plasmid DNA by scrape loading and sonication loading. Proceedings of the National Academy of Sciences, USA, 84, 8463-8467.
  • FEYCHTING, M. and AHLBOM, A., 1995, Childhood leukemia and residential exposure to weak extremely low frequency magnetic fields. Environmental Health Perspectives, 105 (euppl. 2), 59-62.
  • GOLLNICK, F., CONRAD, G., BOCK, H. and MEYER, R., 1995, Single cell calcium imaging in Jurkat T-lymphocytes during application of 50 Hz magnetic fields. Paper presented at the 17th Annual Meetings of the Bioelectromagnetics Society, 18-22 June, Boston MA.
  • GRAY, P. T. A., 1988, Oscillations of free cytosolic calcium evoked by cholinergic and catecholaminergic agonists in rat parotid acinar cells. Journal of Physiology, 406, 35-53.
  • HOJEVIK, P., SANDBLOM, J., GALT, S. and HAMMNERIUS, Y., 1995, Ca2+ ion transport through patch-clamped cells exposed to magnetic fields. Bioelectromagnetics, 16, 33-40.
  • HYCLONE LABORATORIES, 1986, Fetal bovine serum: variation in components that influence cell growth and function. Art to Science in Tissue Culture, 5, 3-4.
  • IKEHARA, T., PARK, K., HOUCHI, H., YAMAGUCHI, H., HOSOKAWA, K., SHONO, M., MINAKUCHI, K., TAMAKI, T., KINDUGHI, Y., YOSHIZAKI, K. and MIYAMOTO, H., 1998, Effects of a time-varying strong magnetic field on transient increase in cytosolic free Ca2+ induced by bradykinin in cultured bovine adrenal chromaffin cells. FEBS Letters, 435, 229-232.
  • KAO, J. P., ALDERTON, J. M., TSIEN, R. Y. and STEINHARDT, R. A., 1990, Active involvement of Ca2+ in mitotic progression of Swiss 3T3 fibroblasts. Journal of Cell Biology, 111, 183-196.
  • KIM, Y. V., CONOVER, D. L. and LOTZ, W. G., 1995, Interaction of 60 Hz electric fields with calcium-transporting systems of HL-60 leukemia cells. Paper presented at the 17th Annual Meetings of the Bioelectromagnetics Society, 18-22 June, Boston, MA.
  • KIM, Y. V., CONOVER, D. L., LOTZ, W. G. and CLEARY, S. F., 1998, Electric field-induced changes in agonist-stimulated calcium fluxes of human HL-60 cells. Bioelectromagnetics, 19, 366-376.
  • LIBOFF, A. R., ROZEK, R. J., SHERMAN, M. L., MCLEOD, B. R. and SMITH, S. D., 1987, Ca2+-45 cyclotron resonance in human lymphocytes. Journal of Bioelectricity, 6, 13-22.
  • LIBURDY, R. P., 1992, Biological interactions of cellular systems with time-varying magnetic fields. Armais of the New York Academy of Sciences, 649, 74-95.
  • LINDSTROM, E., LINDSTROM, P., BERGLUND, A., LUNDGREN, E. and MILD, K. H., 1995, Intracellular calcium oscillations in a T-ceD line after exposure to extremely-low-frequency magnetic fields with variable frequencies and flux densities. Bioelectromagnetics, 16, 41-47.
  • LINDSTROM, E., LINDSTROM, P., BERGLUND, A., MILD, K. H. and LUNDGREN, E., 1993, Intracellular calcium oscillations induced in a T-cell line by a weak 50 Hz magnetic field. Journal of Cellar Physiology, 156, 395-398.
  • LOSCHINGER, M., THUMM, S., HAMMERLE, H. and RODEMANN, H. P., 1999, Induction of intracellular calcium oscillations in human skin fibroblast populations by sinusoidal extremely low-frequency magnetic fields (20 Hz, 8 mT) is dependent on the differentiation state of the single cell. Radiation Research, 151, 195-200.
  • LYLE, D. L., FUCHS, T. A., CASAMENTO, J. P., DAVIS, C. C. and SWICORD, M. L., 1997, Intracellular calcium signalling by Jurkat T-lymphocytes exposed to a 60Hz magnetic field. Bioelectromagnetics, 18, 439-445.
  • LYLE, D. L., WANG, X., AYOTTE, R. D., SHEPPARD, A. R. and ADEY, W. R., 1991, Calcium uptake by leukemic and normal T-lymphocytes exposed to low frequency magnetic fields. Bioelectromagnetics, 12, 145-156.
  • MCCANN, J., DIETRICH, F., RAFFERTY, C. and MARTIN, A. O., 1993, A critical review of the genotoxic potential of electric and magnetic fields. Mutation Research, 297, 61-95.
  • MCLEOD, K. J. and PORRES, L., 1995, Field intensity responses characteristics for cell ensembles exposed to low level, ELF electric fields. Paper presented at the 17th Annual Meeting of the Bioelectromagnetic Society, 18-22 June, Boston, MA.
  • MCLEOD, K.J., 1995, The role of cell and tissue calcium in transducing the effects of exposure to low-frequency electromagnetic fields. In M. Blank (ed.), Electromagnetic Fields: Biological Interactions and Mechanisms (Washington, D.C.: American Chemical Society), pp. 349-365.
  • MCLEOD, K. J., DONAHUE, H. J., LEVIN, P. E. and RUBIN, C. T.,1990. Low frequency sinusoidal fields alter calcium fluctuations in osteoblast cells. Presented at the Tenth Annual meetings of the Bioelectrical Repair and Growth Society, 14-17 October, Philadelphia, Pa.
  • MCLEOD, K. J., DONAHUE, H. J., LEVIN, P. E. and RUBIN, C. T.,1991. Low-frequency sinusoidal electric fields alter calcium fluctuations in osteoblast-like cells. In C. T. Brighton and S. R. Pollack (eds), Electromagnetics in Biology and Mediane (San Francisco: San Francisco Press), pp. 111-115.
  • McLEOD, K. J., DONAHUE, H. J. and RUBIN, C. T., 1993, Ca2+ transients during mitotic progression in ensembles of osteoblastic cells: a basis for monitoring cellular responses to ELF fields in real-time. Paper presented at the Annual Review of Research on Biological Effects of Electric and Magnetic Fields from the Generation, Delivery and Use of Electricity, 31 October-4 November, Savannah, GA.
  • MCNEIL, P. and TAYLOR, D., 1985, Entrapment of aequorin in mammalian cells. Cell Calcium, 6, 83-92.
  • MORGADO-VALLE, C., VERDUGO-DIAZ, L., GARCIA, D. E., MORALES-OROZCO, C. and DRUCKER-COLIN, R., 1998, The role of voltage-gated Ca2 + channels in neurite growth of cultured chromaffin cells induced by extremely low frequency (ELF) magnetic field stimulation. Cell Tissue Research, 291, 217-230.
  • MULLINS, R. D. and SISKEN, J. E., 2000, Mechanisms underlying spontaneous calcium spiking in aequorin-loaded ROS 17/2.8 cells. Bioelectromagnetics, 21, 1-9.
  • MULLINS, R. D., SISKEN, J. E, HEJASE, H. A. N. and SISKEN, B. F., 1993 Design and characterization of a system for exposure of cultured cells to extremely low frequency electric and magnetic fields over a wide range of field strengths. Bioelectromagnetics, 14, 173-186.
  • PARKINSON, W. C. and HANKS. C. T., 1989, Search for cyclotron resonance in cells in vitro. Bioelectromagnetics, 10, 129-145.
  • ROSEN, L. A., LYLE, D. B. and SWICORD, M. L., 1995, Acute magnetic field exposure does not affect basal levels or norepinephrine stimulated increases in pineal cell intracellular calcium. Paper presented at the 17th Annual Meetings of the Bioelectromagnetics Society, 18-22 June, Boston, MA.
  • SCHAAFSMA, G., 1988, Calcium in extracellular fluid. In B. E. C. Nordin (ed.), Calcium in Human Biology (London: Springer), pp. 241-259.
  • SISKEN, J. E. and DEREMER, D., 2000, Power frequency electromagnetic fields and the capacitative calcium entry system (CCES) in SV40-transformed Swiss 3T3 (SV3T3) cells. Radiation Research, 153, 699-705.
  • SONTAG, W., 1998, Action of extremely low frequency electric fields on the cytosolic calcium concentration of differentiated HL-60 cells: nonactivated cells. Bioelectromagnetics, 19, 32-40.
  • STAGG, R. B., THOMAS, W. J. and AEEY, W. R., 1994, Characterization of the onset of bombesin-induced calcium oscillations in rat C6 glioma cells exposed to a 60 Hz magnetic field. Paper presented at the 16th Annual Meetings of the Bioelectromagnetics Society, 12-17 June, Copenhagen.
  • WALLECZEK, J., 1992, Electromagnetic field effects on cells of the immune system: the role of calcium signalling. FASEB Journal, 6, 3177-3185.
  • WALLECZEK, J. and BUDINGER, T. F., 1992, Pulsed magnetic field effects on calcium signalling in lymphocytes: dependence on cell status and field intensity. FEBS Letters, 314, 351-355.
  • WALLECZEK, J. and LIBURDY, R. P., 1990, Nonthermal 60Hz sinusoidal magnetic-field exposure enhances 45Ca2+ uptake in rat thymocytes: dependence on mitogen activation, FEBS Letters, 271, 157-160.
  • WALLECZEK, J., KILLORAN, P. L. and ADEY, W. R., 1994, Acute 60-Hz magnetic field effects on Ca2+ (Mn2+) influx in human Jurkat T-cells. Paper presented at the Proceedings of the 16th Annual Meetings of the Bioelectromagnetics Society, 12-17 June, Copenhagen.
  • WALLECZEK, J., MILLER, P. L. and ADEY, W. R., 1993, Acute 60-Hz magnetic field effects on Ca2+ (MN2+) influx in human Jurkat T-cells: strict dependence on the biological state of the cell. Paper presented at the Annual Review of Research on Biological Effects of Electric and Magnetic Fields from the Generation, Delivery and Use of Electricity, 31 October-4 November, Savannah, GA.
  • WEY, H. E., CONOVER, D. P., MATHIAS, P., TORASSON, M. and LOTZ, W. G., 2000, 50-Hertz magnetic field and calcium transients in Jurkat cells: results of a research and public information dissemination (RAPID) program study. Environmental Health Perspectives, 108, 135-140.

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