Advanced search
Publication Cover
International Journal of Hyperthermia Volume 7, 1991 - Issue 3
Submit an article Journal homepage
5
Views
1
CrossRef citations to date
0
Altmetric
Original Article

Modulation of cellular glycosidase activity by hyperthermia

K. J. Henle Departments of Medicine, Physiology/Biophysics, and Pediatrics, University of Arkansas for Medical Sciences, Little Rock, AR, 72205–5484, USA
,
R. J. Shmookler Reis Departments of Medicine, Physiology/Biophysics, and Pediatrics, University of Arkansas for Medical Sciences, Little Rock, AR, 72205–5484, USA
&
C. K. Lumpkin Departments of Medicine, Physiology/Biophysics, and Pediatrics, University of Arkansas for Medical Sciences, Little Rock, AR, 72205–5484, USA
Pages 531-537 | Received 21 Feb 1990, Accepted 08 Nov 1990, Published online: 09 Jul 2009

References

  • Alberts B., Bray D., Lewis I., Raff M., Roberts K., Watson J. D. Molecular Biology of the Cell, 2nd edn. Garland, New York 1989; 459–465
  • Ardenne M. V. Selective multiphase cancer therapy: conceptual aspects and experimental basis. Advances in Pharmacology and Chemotherapy 1972; 10: 339–380
  • Barratt G. M., Wills E. D. The effect of hyperthermia and radiation on lysosomal enzyme activity of mouse mammary tumours. European Journal of Cancer 1979; 15: 243–250
  • Chung K.-N., Walter P., Aponte G. W., Moore H.-P. H. Molecular sorting in the secretory pathway. Science 1989; 243: 192–197
  • Conzelmann E., Sandhoff K. Glycolipid and glycoprotein degradation. Advances in Enzymology 1987; 60: 89–216
  • Dannenberg A. M., Suga M. Histochemical stains for macrophages in cell smears and tissue sections: β-galactosidase, acid phosphatase, nonspecific esterase, succinic de-hydrogenase, and cytochrome oxidase. Methods for Studying Mononuclear Phagocytes. Academic Press, New York 1981; 375–396
  • Faber C. N., Glew R. H. α-D-Mannosidase. Methods of Enzymatic Analysis, Vol. IV, 3rd edn, H. U. Bergmeyer. Verlag Chemie, WeinheimGermany 1984; 230–240
  • Henle K. J. Thermotolerance in cultured mammalian cells. Themotolerance, K. J. Henle. CRC Press, Boca Raton, Fla. 1987; Vol. I: 13–71
  • Henle K. J., Monson T. P., Nagle W. A., Moss A. J. Tumor-targeted cell killing with 8-hydroxyquinolyl-glucuronide. Radiation Research 1988c; 115: 373–386
  • Henle K. J., Monson T. P., Stone A. Enhanced glycosyltransferase activity during thermotolerance development in mammalian cells. Journal of Cellular Physiology 1990a; 142: 372–378
  • Henle K. J., Moss A. J., Nagle W. A. Temperature-dependent induction of thermotolerance by ethanol. Radiation Research 1986; 108: 327–335
  • Henle K. J., Nagle W. A., Bedford J. S., Harvey W. F. Protein glycosylation in heat-sensitive and thermotolerancedeficient mutants of Chinese hamster ovary cells. Journal of Cell Science 1990b; 95: 555–561
  • Henle K. J., Nagle W. A., Norris J. S., Moss A. J. Enhanced glycosylation of a 50 kD protein during thermotolerance development in CHO cells. International Journal of Radiation Biology 1988a; 53: 839–847
  • Henle K. J., Stone A., Chatterjee S. K. Effect of hyperthermia on the activity of three glycosyltransferases in Chinese hamster ovary cells. Cuncer Research 1988b; 48: 5717–5721
  • Heynen M., Frey H. E., Kruuv J., Lepock J. R. Protein degradation in CHL V79 cells during and after exposure to 43°C. Radiation Research 1989; 119: 73–87
  • Hofer K. G., Brizzard B., Hofer M. G. Effect of lysosome modification on the heat potentiation of radiation damage and direct heat death of BP-8 sarcoma cells. European Journal of Cancer 1979; 15: 1449–1457
  • Hume S. P., Field S. B. Acid phosphatase activity following hyperthermia of mouse spleen and its implications in heat potentiation of X-ray damage. Radiation Research 1977; 72: 145–153
  • Hume S. P., Rogers M. A., Field S. B. Heat-induced thermal resistance and its relationship to lysosomal response. International Journal of Radiation Biology 1978a; 34: 503–511
  • Hume S. P., Rogers M. A., Field S. B. Two qualitatively different effects of hyperthermia on acid phosphatase staining in mouse spleen, dependent on the severity of the treatment. International Journal of Radiation Biology 1978b; 34: 401–409
  • Keech M. L., Wills E. D. The effect of hyperthermia on activation of lysosomal enzymes in HeLa cells. European Journal of Cancer 1979; 15: 1025–1031
  • Lee Y. J., Armour E. P., Borelli M. J., Corry P. M. Heat protectors and heat-induced preferential redistribution of 26 and 70 kDa proteins in Chinese hamster ovary cells. Journal of Cellular Physiology 1989; 141: 510–516
  • Leeper D. B. Molecular and cellular mechanisms of hyperthennia alone or combined with other modalities. Hyperthermic Oncology 1984. Taylor & Francis, London 1985; Vol. 1: 9–40
  • Lin P. S. Cytoskeleton and modified cellular heat sensitivity. Thennotolerance, Vol. II, K. J. Henle. CRC Press, Boca Raton, Fla. 1987; 83–104
  • Lusis A. J., Breen G. A. M., Paigen K. Nongenetic heterogeneity of mouse β-galactosidase. Journal of Biological Chemistry 1977; 252: 4613–4618
  • Magun B. E., Fennie C. W. Effect of hyperthermia on binding, internalization, and degradation of epidermal growth factor. Radiation Research 1981; 86: 133–146
  • Miller S. C., Pavlath G. K., Blakely B. T., Blau H. M. Muscle cell components dictate hepatocyte gene expression and the distribution of the Golgi apparatus in heterokaryons. Genes and Development 1988; 2: 330–340
  • Monson T. P., Henle K. J., Nagle W. A., Mansouri A. Tumor targeted delivery of 8-hydroxyquinoline. International Journal of Radiation Oncology, Biology and Physics 1991, (In press)
  • Myers R., Rogers M. A., Hume S. P. Histochemical evidence for radiation enhancement of lysosomal response following hyperthermia of tail cartilage in baby rat. Radiation Research 1981; 87: 329–340
  • Ohtsuka K., Nakamura H., Sato C. Intracellular distribution of 73 000 and 72 000 dalton heat shock proteins in HeLa cells. International Journal of Hyperthermia 1986; 2: 267–275
  • Overgaard J. Ultrastructure of a murine mammary carcinoma exposed to hyperthermia in vivo. Cancer Research 1976; 36: 983–985
  • Paigen K., Peterson J. Coordinacy of lysosomal enzyme excretion in human urine. Journal of Clinical Investigations 1978; 61: 751–762
  • Roti Roti J. L., Laszlo A. The effects of hyperthermia on cellular macromolecules. Hyperthermia and Oncology, Vol. 1, M. Urano, E. Douple. VSP BV, ZeistThe Netherlands 1988; 13–56
  • Sharon N., Lis H. Glycoproteins. The Proteins. Academic Press, New York 1982; Vol. 5: 1–144
  • Stirling J. L. β-N-Acetylhexosaminidase. Methods of Enzymatic Analysis, Vol. IV, 3rd edn, H. U. Bergmeyer. Verlag Chemie, WeinheimGermany 1984; 269–277
  • Tamulevicius P., Streffer C. Does hyperthemia produce increased lysosomal enzyme activity. International Journal of Radiation Biology 1983; 43: 321–327
  • Tomasovic S. P. Functional aspects of the mammalian heat-stress protein response. Life Chemistry Reports 1989; 7: 33–63
  • Wachsberger P. R., Coss R. A. Effects of hyperthermia on the cytoskeleton and cell survival in G1 and S phase Chinese hamster ovary cells. International Journal of Hypethermia 1989; 6: 67–85

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:

Order Reprints Request Corporate Permissions

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:

Request Academic Permissions

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.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.