72
Views
38
CrossRef citations to date
0
Altmetric
Original Article

Heat shock causes protein aggregation and reduced protein solubility at the centrosome and other cytoplasmic locations

, &
Pages 681-695 | Received 14 Dec 1995, Accepted 01 May 1996, Published online: 09 Jul 2009

References

  • Anderson R. G., Floyd A. K. Electrophoretic analysis of basal body (centriole) proteins. Biochemistry 1980; 19: 5625–5631
  • Barrau M. D., Blackburn G. R., Dewey W. C. Effects of heat on the centrosomes of Chinese hamster ovary cells. Cancer Research 1978; 38: 2290–2294
  • Bornens M. Structure and functions of isolated centrosomes. The Centrosome, V. I. Kalnins. Academic Press, San Diego 1992; 2–43
  • Borrelli M. J., Mackey M. A., Dewey W. C. A method for freezing synchronous mitotic and G1 cells. Experimental Cell Research 1987; 170: 363–368
  • Burgman P. W. J. J., Konings A. W. T. Heat induced protein denaturation in the particulate fraction of HeLa S3 cells: effect of thermotolerance. Journal of Cellular Physiology 1992; 153: 88–94
  • Coss R. A., Dewey W. C., Bamburg J. R. Effect of hyperthermia (41.5°C) on Chinese hamster ovary cells analyzed in mitosis. Cancer Research 1979; 39: 1911–1918
  • Coss R. A., Dewey W. C., Bamburg J. R. Effects of hyperthermia on dividing Chinese hamster ovary cells and on microtubules in vitro. Cancer Research 1982; 42: 1059–1071
  • Dewey W. C. In vitro systems: standardization of endpoints. International Journal of Radiation Oncology, Biology and Physics 1979; 5: 1165–1174
  • Doxsey S. J., Stein S. J. P., Evans L., Calarco P. D., Kirschner M. Pericentrin, a highly conserved centrosome protein involved in microtubule organization. Cell 1994; 76: 639–650
  • Dubois M. F., Hovanessian A. G., Bensaude O. Heat-shock-induced denaturation of proteins. Journal of Biological Chemistry 1991; 266: 9707–9711
  • Gould R. P., Borisy G. G. The pericentriolar material in Chinese hamster ovary cells nucleates microtubule formation. Journal of Cell Biology 1977; 73: 601–615
  • Kampinga H. H., Jorritsma J. B. M., Konings A. W. T. Heat-induced alterations in DNA polymerase activity of HeLa cells and of isolated nuclei. Relation to cell survival. International Journal of Radiation Biology 1985; 47: 29–40
  • Kampinga H. H. Thermotolerance in mammalian cells. Journal of Cell Science 1993; 104: 11–17
  • Kampinga H. H., Muller E., Brunsting J. F., Heine L., Kongings A. W. T., Issels R. D. Association of HSP72 with the nuclear (TX-100-insoluble) fraction upon heating tolerant and non-tolerant HeLa S3 cells. International Journal of Hyperthermia 1993; 9: 89–98
  • Kim D., Lee Y. J., Corry P. M. Employment of a turbidimetric assay system to study the biochemical role of HSP70 in heat-induced protein aggregation. Journal of Thermal Biology 1993; 18: 165–175
  • Lepock J. R., Frey H. E., Heynen M. P., Nishio J., Waters B., Ritchie K. P., Kruuv J. Increased thermostability of thermotolerant CHL V79 cells as determined by differential scanning calorimetry. Journal of Cellular Physiology 1990; 142: 628–634
  • Lewis J. L., Pelham R. B. Involvement of ATP in the nuclear and nucleolar functions of the 70 kd heat shock protein. EMBO Journal 1985; 4: 3137–3143
  • Lobreau A. U., Raaphorst G. P., Szekely J. G. The use of immunostaining to quantify x-ray and heat-induced multiple microtubule organizing centers in normal and transformed cells. Basic and Applied Histochemistry 1988; 32: 263–278
  • Malawista S. E., DeBoisfleury Chevance A. The cytokineplast: Purified, stable, and functional motile machinery from human blood polymorphonuclear leukocytes. Journal of Cell Biology 1982; 95: 960–973
  • Marcaillou C., Debec A., Lauverjat S., Saihi A. The effect of the heat shock response on ultrastructure of the centrosome of Drosophila cultured cells in interphase: possible relation with changes in the chemical state of calcium. Biochemistry and Cell Biology 1993; 71: 507–517
  • Mitchison T., Kirschner M. Microtubule assembly nucleated by isolated centrosomes. Nature 1984; 312: 232–237
  • Nguyen V. T., Morange M., Bensaude O. Protein denaturation during heat shock and related stress. Journal of Biological Chemistry 1989; 264: 10487–10492
  • Roti Roti J. L., Winward R. T. The effects of hyperthermia on the protein-to-DNA ratio of isolated HeLa cell chromatin. Radiation Research 1978; 74: 155–169
  • Stearns T., Kirschner M. In vitro reconstitution of centrosome assembly and function: the central role of gamma tubulin. Cell 1994; 76: 623–637
  • Tomasovic S. P., Turner G. N., Dewey W. C. Effect of hyperthermia on nonhistone proteins isolated with DNA. Radiation Research 1978; 73: 535–552
  • Vidair C. A., Doxsey S. J., Dewey W. C. Heat shock alters centrosome organization leading to mitotic dysfunction and cell death. Journal of Cellular Physiology 1993; 154: 443–455
  • Vidair C. A., Doxsey S. J., Dewey W. C. Thermotolerant cells possess an enhanced capacity to repair heat-induced alterations to centrosome structure and function. Journal of Cellular Physiology 1995; 163: 194–203

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.