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International Journal of Radiation Biology Volume 60, 1991 - Issue 4
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Original Article

Trypsin-induced Changes in Cell Shape and Chromatin Structure Result in Radiosensitization of Monolayer Chinese Hamster V79 Cells

M. Kapiszewska Institute of Molecular Biology, Jagiellonian University, al Mickiewicza 3, 31–120, Krakow, Poland
,
N.M.S. Reddy Radiation Biology Division, Department of Radiation Oncology, SUNY Health Science Center, 450 Clarkson Avenue, Box 1212, Brooklyn, NY, 11203, USA
&
C.S. Lange Institute of Molecular Biology, Jagiellonian University, al Mickiewicza 3, 31–120, Krakow, Poland
Pages 635-646 | Received 05 Nov 1990, Accepted 04 Apr 1991, Published online: 03 Jul 2009

References

  • Cook P.R., Brazell I.A. Supercoils in human DNA. Journal of Cell Science 1975; 19: 261–279
  • Cook P.R., Brazell I.A. Conformational constraints in nuclear DNA. Journal of Cell Science 1976; 22: 287–302
  • Cook P.R., Brazell I.A., Jost E. Characterization of nuclear structures containing superhelical DNA. Journal of Cell Science 1976; 22: 303–324
  • Dettor C.M., Dewey W.C., Winans L.F., Noel J.S. Enhancement of X-ray damage in synchronous Chinese hamster cells by hypertonic treatment. Radiation Research 1972; 52: 352–372
  • Dewey W.C., Noel J.S., Dettor C.M. Changes in radiosensitivity and dispersion of chromatin during the cell cycle of synchronous Chinese hamster cells. Radiation Research 1972; 52: 373–394
  • Durand R.E. Cell cycle kinetics in an in vitro tumor model. Cell Tissue Kinetics 1976; 9: 403–412
  • Gordon D.J., Milner A.E., Beaney R.P., Grdina D.J., Vaughan A.T.M. The increase in radioresistance of Chinese hamster cells cultured as spheroids is correlated to changes in nuclear morphology. Radiation Research 1990; 121: 175–179
  • Hay E.D., Svoboda K.K. Extracellular matrix interaction with the cytoskeleton. Cell Shape Determinants, Regulation, and Regulatory Role, W.D. Stein, F. Bronner. Academic Press, San Diego, CA 1989; 147–172
  • Iliakis G. Radiation-induced potentially lethal damage: DNA lesions susceptible to fixation. International Journal of Radiation Biology 1988; 53: 541–584
  • Ingber D.E., Folkman J. Tension and compression as basic determinants of cell form and function: Utilization of a cellular tensegrity mechanism. Cell Shape Determinants, Regulation, and Regulatory Role, W.D. Stein, F. Bronner. Academic Press, San Diego, CA 1989; 3–31
  • Jaberaboansari A., Nelson G.B., Roti Roti J.L., Wheeler K.T. Postirradition alterations of neuronal chromatin structure. Radiation Research 1988; 114: 94–104
  • Kapiszewska M., Lange C.S. The effect of reduced temperature and/or starvation conditions on the radiosensitivity and repair of potentially lethal damage and sublethal damage in L5178Y-R and L5178Y-S cells. Radiation Research 1988; 113: 458–472
  • Kapiszewska M., Wright W.D., Lange C.S., Roti Roti J.L. DNA supercoiling changes in nucleoids from irradiated L5178Y-S and -R cells. Radiation Research 1989; 119: 569–575
  • Kaufmann W.K., Briley L.P. Formation of DNA strand breaks in UV-irradiated human fibroblast preparations. Mutation Research 1987; 184: 47–55
  • Kelland L.R., Edwards S.M., Steel G.G. Induction and rejoining of DNA double-strand breaks in human cervix carcinoma cell lines of differing radiosensitivity. Radiation Research 1988; 116: 526–538
  • Little J.B. Factors influencing the repair of potentially lethal radiation damage in growth inhibited human cells. Radiation Research 1973; 56: 320–333
  • Maizel A., Nicolini C., Baserga R. Effect of cell trypsinization on nuclear proteins of WI-38 fibroblasts in culture. Journal of Cellular Physiology 1975; 86: 71–82
  • Mellon I., Spivak G., Hanawalt P.C. Selective removal of transcription-blocking DNA damage from the transcribed strand of the mammalian DHFR gene. Cell 1987; 51: 241–249
  • Oleinick N.L., Chiu S., Ramakrishnan N., Xue L. The formation, identification, and significance of DNA-protein cross-links in mammalian cells. British Journal of Cancer 1987; 55(Suppl. VIII)135–140
  • Olive P.L., Durand R.E. Effect of intracellular contact on DNA conformation, radiation-induced DNA damage, and mutation in Chinese hamster V79 cells. Radiation Research 1985; 101: 94–101
  • Olive P.L., Hilton J., Durand R.E. DNA conformation of Chinese hamster V79 cells and sensitivity to ionizing radiation. Radiation Research 1986; 107: 115–124
  • Raaphorst G.P., Dewey W.C. Fixation of potentially lethal radiation damage by postirradiation exposure of Chinese hamster cells to 0·05m or 1·5m NaCl solutions. International Journal of Radiation Biology 1979; 36: 303–315
  • Raaphorst G.P., Sapareto S.A., Freeman M.L., Dewey W.C. Changes in cellular heat and/or radiation sensitivity observed at various times after trypsinization and plating. International Journal of Radiation Biology 1979; 35: 193–197
  • Reddy N.M.S., Lange C.S. Cell cycle progression delay in conditioned medium does not play a role in the repair of X-ray damage in Chinese hamster V79 cells. Radiation Research 1989a; 119: 338–347
  • Reddy N.M.S., Lange C.S. Similarities in the repair kinetics of sublethal and potentially lethal X-ray damage in log phase Chinese hamster V79 cells. International Journal of Radiation Biology 1989b; 56: 239–251
  • Reddy N.M.S., Lange C.S. Serum, trypsin and cell-shape but not cell-to-cell contact influence the X-ray sensitivity of Chinese hamster V79 cells in monolayer and in spheroids. Radiation Research 1991; 127, In press
  • Reddy N.M.S., Stevenson A.F.G., Lange C.S. Trypsinization and the radiosensitivity of mitotic and log phase Chinese hamster V79 cells exposed to 250kVp X-rays. International Journal of Radiation Biology 1989; 55: 105–117
  • Reddy N.M.S., Mayer P.J., Lange C.S. The saturated repair kinetics of Chinese hamster V79 cells suggest a damage accumulation-interaction model of cell killing. Radiation Research 1990; 121: 304–311
  • Roti Roti J.L., Wright W.D. Visualization of DNA loops in nucleoids from HeLa cells: assay for DNA damage and repair. Cytometry 1987; 8: 461–467
  • Schwartz J.L., Rotmensch J., Giovanazzi S., Cohen M.B., Weichselbaum R.R. Faster repair of DNA double-strand breaks in radioresistant human tumor cells. International Journal of Radiation Oncology, Biology, Physics 1988; 15: 907–912
  • Sun C., Redpath J.L., Colman M., Stanbridge E.J. Repair of potentially lethal radiation damage in confluent and non-confluent cultures of human hybrid cells. International Journal of Radiation Biology 1986; 49: 395–402
  • Taylor Y.C. Can cell shape mediate radiation sensitivity?. 37th Annual Meeting of the Radiation Research Society, Seattle, WAUSA, 1989, Abstract
  • Thomas E.A., Thomas C.A. Nucleoid halo expansion indirectly measures DNA damage in single cells. Experimental Cell Research 1989; 183: 149–158
  • Utsumi H., Elkind M.M. Two forms of potentially lethal damage have similar repair kinetics in plateau- and in log-phase cells. International Journal of Radiation Biology 1985; 47: 569–580
  • van Ankeren S.C., Wheeler K.T. Relationship between the repair of radiation-induced DNA damage and recovery from potentially lethal damage in 9L rat brain tumor cells. Cancer Research 1984; 44: 1091–1097
  • Vogelstein D.M., Pardoll D.M., Coffey D.S. Supercoiled loops and eucariotic DNA replication. Cell 1980; 22: 79–85
  • Wheeler K.T., Nelson G.B., Terrell K.E., Wallen C.A. Regulation of DNA repair kinetics in proliferative and quiescent tumor cells. International Journal of Radiation Biology 1988; 54: 245–255
  • Yasui L.S., Higashikubo R., Warters R.L. The effect of chromatin decondensation on DNA damage and repair. Radiation Research 1987; 112: 318–330

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