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International Journal of Hyperthermia Volume 25, 2009 - Issue 3
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Original

Transient inhibition of Calyculin A induced premature chromosome condensation by hyperthermia

J. W. J. Bergs Laboratory for Experimental Oncology and Radiobiology (LEXOR), Department of Radiation Oncology, Center for Experimental Molecular Medicine (CEMM), Academic Medical Center, University of Amsterdam, Amsterdam
,
J. W. J. Bergs Laboratory for Experimental Oncology and Radiobiology (LEXOR), Department of Radiation Oncology, Center for Experimental Molecular Medicine (CEMM), Academic Medical Center, University of Amsterdam, Amsterdam
,
R. Ten Cate Laboratory for Experimental Oncology and Radiobiology (LEXOR), Department of Radiation Oncology, Center for Experimental Molecular Medicine (CEMM), Academic Medical Center, University of Amsterdam, Amsterdam
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H. M. Rodermond Laboratory for Experimental Oncology and Radiobiology (LEXOR), Department of Radiation Oncology, Center for Experimental Molecular Medicine (CEMM), Academic Medical Center, University of Amsterdam, Amsterdam
,
P. A. Jaarsma Laboratory for Experimental Oncology and Radiobiology (LEXOR), Department of Radiation Oncology, Center for Experimental Molecular Medicine (CEMM), Academic Medical Center, University of Amsterdam, Amsterdam
,
J. P. Medema Laboratory for Experimental Oncology and Radiobiology (LEXOR), Department of Radiation Oncology, Center for Experimental Molecular Medicine (CEMM), Academic Medical Center, University of Amsterdam, Amsterdam
,
F. Darroudi Department of Toxicogenetics, Leiden University Medical Center, Leiden
,
M. R. Buist Department of Gynecology, Academic Medical Center, University of Amsterdam, The Netherlands
,
L. J. A. Stalpers Laboratory for Experimental Oncology and Radiobiology (LEXOR), Department of Radiation Oncology, Center for Experimental Molecular Medicine (CEMM), Academic Medical Center, University of Amsterdam, Amsterdam
,
J. Haveman Laboratory for Experimental Oncology and Radiobiology (LEXOR), Department of Radiation Oncology, Center for Experimental Molecular Medicine (CEMM), Academic Medical Center, University of Amsterdam, Amsterdam
,
C. Van Bree Laboratory for Experimental Oncology and Radiobiology (LEXOR), Department of Radiation Oncology, Center for Experimental Molecular Medicine (CEMM), Academic Medical Center, University of Amsterdam, Amsterdam
&
N. A. P. Franken Laboratory for Experimental Oncology and Radiobiology (LEXOR), Department of Radiation Oncology, Center for Experimental Molecular Medicine (CEMM), Academic Medical Center, University of Amsterdam, AmsterdamCorrespondence[email protected]
, PhD show all
Pages 220-228 | Received 04 Nov 2008, Accepted 03 Dec 2008, Published online: 09 Jul 2009

References

  • Bezrookove V, Smits R, Moeslein G, Fodde R, Tanke HJ, Raap AK, Darroudi F. Premature chromosome condensation revisited: A novel chemical approach permits efficient cytogenetic analysis of cancers. Genes Chromosomes Cancer 2003; 38: 177–186
  • Bergs JWJ. Hyperthermia, cisplatin and radiation trimodality treatment: In vitro studies on interaction mechanisms. Thesis. University of Amsterdam. 2007
  • Gotoh E, Asakawa I, Kosaka H. Inhibition of protein serine/threonine phosphatases directly induces premature chromosome condensation in mammalian somatic cells. Biomed Res 1995; 16: 63–68
  • Kawata T, Ito H, Uno T, Saito M, Yamamoto S, Furusawa Y, Durante M, George K, Wu H, Cucinotta FA. G2 chromatid damage and repair kinetics in normal human fibroblast cells exposed to low- or high-LET radiation. Cytogen Genome Res 2004; 104: 211–215
  • Alsbeih G, Raaphorst GP. Differential induction of premature chromosome condensation by Calyculin A in human fibroblast and tumor cell lines. Anticancer Res 1999; 19: 903–908
  • Kanda R, Eguchi-Kasai K, Hayata I. Phosphatase inhibitors and premature chromosome condensation in human peripheral lymphocytes at different cell-cycle phases. Somat Cell Mol Gen 1999; 25: 1–8
  • Gotoh E, Durante M. Chromosome condensation outside of mitosis: Mechanisms and new tools. J Cell Physiol 2006; 209: 297–304
  • Maller J, Gautier J, Langan TA, Lohka MJ, Shenoy S, Shalloway D, Nurse P. Maturation-promoting factor and the regulation of the cell cycle. J Cell Sci 1989; 12: 53–63
  • Dunphy WG, Brizuela L, Beach D, Newport J. The Xenopus cdc2 protein is a component of MPF, a cytoplasmic regulator of mitosis. Cell 1988; 54: 423–431
  • Gautier J, Norbury C, Lohka M, Nurse P, Maller J. Purified maturation-promoting factor contains the product of a Xenopus homolog of the fission yeast cell cycle control gene cdc2+. Cell 1988; 54: 433–439
  • Norbury C, Nurse P. Animal cell cycles and their control. Ann Rev Biochem 1992; 61: 441–470
  • Lew DJ, Kornbluth S. Regulatory roles of cyclin dependent kinase phosphorylation in cell cycle control. Curr Opin Cell Biol 1996; 8: 795–804
  • Janssens V, Goris J. Protein phosphatase 2A: A highly regulated family of serine/threonine phosphatases implicated in cell growth and signalling. Biochem J 2001; 353: 417–439
  • Moreno S, Hayles J, Nurse P. Regulation of p34Cdc2 protein kinase during mitosis. Cell 1989; 58: 361–372
  • Hendzel MJ, Wei Y, Mancini MA, Van Hooser A, Ranalli T, Brinkley BR, Bazett-Jones DP, Allis CD. Mitosis-specific phosphorylation of histone H3 initiates primarily within pericentromeric heterochromatin during G2 and spreads in an ordered fashion coincident with mitotic chromosome condensation. Chromosoma 1997; 106: 348–360
  • Wei Y, Mizzen CA, Cook RG, Gorovsky MA, Allis CD. Phosphorylation of histone H3 at serine 10 is correlated with chromosome condensation during mitosis and meiosis in Tetrahymena. Proc Nat Acad Sci USA 1998; 95: 7480–7484
  • Johansen KM, Johansen J. Regulation of chromatin structure by histone H3S10 phosphorylation. Chromosome Res 2006; 14: 393–404
  • Huang X, Kurose A, Tanaka T, Traganos F, Dai W, Darzynkiewicz Z. Sequential phosphorylation of Ser-10 on histone H3 and ser-139 on histone H2AX and ATM activation during premature chromosome condensation: Relationship to cell-cycle phase and apoptosis. Cytometry 2006; 69: 222–229
  • Guo XW, Th'ng JP, Swank RA, Anderson HJ, Tudan C, Bradbury EM, Roberge M. Chromosome condensation induced by fostriecin does not require p34Cdc2 kinase activity and histone H1 hyperphosphorylation, but is associated with enhanced histone H2A and H3 phosphorylation. EMBO J 1995; 14: 976–985
  • Ajiro K, Yoda K, Utsumi K, Nishikawa Y. Alteration of cell cycle-dependent histone phosphorylations by okadaic acid. Induction of mitosis-specific H3 phosphorylation and chromatin condensation in mammalian interphase cells. J Biol Chem 1996; 271: 13197–13201
  • Bui HT, Yamaoka E, Miyano T. Involvement of histone H3 (Ser10) phosphorylation in chromosome condensation without Cdc2 kinase and mitogen-activated protein kinase activation in pig oocytes. Biol Reprod 2004; 70: 1843–1851
  • Mackey MA, Zhang XF, Hunt CR, Sullivan SJ, Blum J, Laszlo A, Roti Roti JL. Uncoupling of M-phase kinase activation from the completion of S-phase by heat shock. Cancer Res Apr 15, 1996; 56(8)1770–1774
  • Bergs JW, Cate RT, Haveman J, Medema JP, Franken NA, Bree CV. Chromosome Fragments have the Potential to Predict Hyperthermia-induced Radio-sensitization in Two Different Human Tumor Cell Lines. J Radiat Res (Tokyo) Sep, 2008; 49(5)465–72, Epub 2008 Apr 15
  • Iliakis GE, Pantelias GE. Effects of hyperthermia on chromatin condensation and nucleoli disintegration as visualized by induction of premature chromosome condensation in interphase mammalian cells. Cancer Res 1989; 49: 1254–1260
  • Takahashi A, Matsumoto H, Nagayama K, Kitano M, Hirose S, Tanaka H, Mori E, Yamakawa N, Yasumoto J, Yuki K, et al. Evidence for the involvement of double-strand breaks in heat-induced cell killing. Cancer Res 2004; 64: 8839–8845
  • Kaneko H, Igarashi K, Kataoka K, Miura M. Heat shock induces phosphorylation of histone H2AX in mammalian cells. Biochem Biophys Res Comm 2005; 328: 1101–1106
  • Hunt CR, Pandita RK, Laszlo A, Higashikubo R, Agarwal M, Kitamura T, Gupta A, Rief N, Horikoshi N, Baskaran R, et al. Hyperthermia activates a subset of ataxia-telangiectasia mutated effectors independent of DNA strand breaks and heat shock protein 70 status. Cancer research 2007; 67: 3010–3017
  • Lepock JR. How do cells respond to their thermal environment?. Int J Hyperthermia 2005; 21: 681–687
  • Hall EJ. Radiobiology for the radiologist. Lippincott Company, Philadelphia 1988
  • Overgaard J. Effect of hyperthermia on malignant cells in vivo. A review and a hypothesis. Cancer 1977; 39: 2637–2646
  • Li GC, Petersen NS, Mitchell HK. Induced thermal tolerance and heat shock protein synthesis in Chinese hamster ovary cells. Int J Radiat Oncol Biol Phys 1982; 8: 63–67
  • Ellis RJ, van der Vies SM. Molecular chaperones. Ann Rev Biochem 1991; 60: 321–347
  • Clark EP, Dewey WC, Lett JT. Recovery of CHO cells from hyperthermic potentiation to X-rays repair of DNA and chromatin. Radiat Res 1981; 85: 302–313
  • Weissenborn U, Obe G. Modification of X-ray induced chromosome aberration frequency by pre- and postirradiation hyperthermia of human peripheral lymphocytes. Int J Radiat Biol 1991; 59: 973–984
  • Tomasovic SP, Turner GN, Dewey WC. Effect of hyperthermia on nonhistone proteins isolated with DNA. Radiat Res 1978; 73: 535–552
  • Diller KR. Stress protein expression kinetics. Ann Rev Biomed Eng 2006; 8: 403–424
  • Lepock JR, Frey HE, Heynen ML, Senisterra GA, Warters RL. The nuclear matrix is a thermolabile cellular structure. Cell Stress Chaperones 2001; 6: 136–147
  • Roti Roti JL, Kampinga HH, Malyapa RS, Wright WD, vanderWaal RP, Xu M. Nuclear matrix as a target for hyperthermic killing of cancer cells. Cell Stress Chaperones 1998; 3: 245–255
  • Lepock JR. Role of nuclear protein denaturation and aggregation in thermal radiosensitization. Int J Hyperthermia 2004; 20: 115–130
  • Lepock JR, Frey HE, Ritchie KP. Protein denaturation in intact hepatocytes and isolated cellular organelles during heat shock. J Cell Biol 1993; 122: 1267–1276
  • Hildebrandt B, Wust P, Ahlers O, Dieing A, Sreenivasa G, Kerner T, Felix R, Riess H. The cellular and molecular basis of hyperthermia. Crit Rev Oncol Hematol 2002; 43: 33–56
  • Ito J, Hirabayashi M, Kato M, Takeuchi A, Ito M, Shimada M, Hochi S. Contribution of high p34Cdc2 kinase activity to premature chromosome condensation of injected somatic cell nuclei in rat oocytes. Reproduction 2005; 129: 171–180
  • Gowdy PM, Anderson HJ, Roberge M. Entry into mitosis without Cdc2 kinase activation. J Cell Sci 1998; 111: 3401–3410
  • Tosuji H, Fusetani N, Seki Y. Calyculin A causes the activation of histone H1 kinase and condensation of chromosomes in unfertilized sea urchin eggs independently of the maturation-promoting factor. Comp Biochem Physiol C Toxicol Pharmacol 2003; 135: 415–424
  • Nowak SJ, Corces VG. Phosphorylation of histone H3: A balancing act between chromosome condensation and transcriptional activation. Trends Genet 2004; 20: 214–220
  • Dyson MH, Thomson S, Mahadevan LC. Heat shock, histone H3 phosphorylation and the cell cycle. Cell Cycle 2005; 4: 13–17
  • Gotoh E. Visualizing the dynamics of chromosome structure formation coupled with DNA replication. Chromosoma 2007; 116: 453–462

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