Molecular analysis of selected cell cycle regulatory proteins during aerobic and hypoxic maintenance of human ovarian carcinoma cells (original) (raw)
References
Amellem, O. & Pettersen, E. O. (1991). Cell inactivation and cell cycle inhibition as induced by extreme hypoxia: the possible role of cell cycle arrest as a protection against hypoxia-induced lethal damage. Cell Prolif24: 127–141. ArticleCAS Google Scholar
Amellem, O., Stokke, T., Sandvik, J. A. & Pettersen, E. O. (1996). The retinoblastoma gene product is reversibly dephosphorylated and bound in the nucleus in S and G2 phases during hypoxic stress. Exp Cell Res227: 106–115. ArticleCAS Google Scholar
Bartek, J., Bartkova, J. & Lukas, J. (1996). The retinoblastoma protein pathway and the restriction point. Curr Opin Cell Biol8: 805–814. ArticleCAS Google Scholar
Bookstein, R., Shew, J. Y., Chen, P. L., Scully, P. & Lee, W. H. (1990). Suppression of tumorigenicity of human prostate carcinoma cells by replacing a mutated RB gene. Science247: 712–715. ArticleCAS Google Scholar
Bradford, M. M. (1976). A rapid and sensitive method for quantitation of microgram quantities of protein utilizing the principle of protein-dye binding. Anal Biochem72: 248–254. ArticleCAS Google Scholar
Buchkovich, K., Duffy, L. A. & Harlow, E. (1989). The retinoblastoma protein is phosphorylated during specific phases of the cell cycle. Cell58: 1097–1105. ArticleCAS Google Scholar
American Cancer Society (1984). Cancer Facts and Figures. Am Cancer Society: New York
Chen, P. L., Scully, P., Shew, J. Y., Wang, J. Y. J. & Lee, W. H. (1989). Phosphorylation of the retinoblastoma gene product is modulated during the cell cycle and cellular differentiation. Cell58: 1193–1198. ArticleCAS Google Scholar
DeCaprio, J. A., Ludlow, J. W., Lynch, D., Furukawa, Y., Griffin, J., Piwnica-Worms, H., Huang, C. M. & Livingston, D. M. (1989). The product of the retinoblastoma susceptibility gene has properties of a cell cycle regulatory element. Cell58: 1085–1095. ArticleCAS Google Scholar
Fathalla, M. F. (1971). Incessant ovulation: a factor in ovarian neoplasia? Lancet2: 163 ArticleCAS Google Scholar
Giordano, A., Whyte, P., Harlow, E., Franza, B. r. Jr, Beach, D. & Draetta, G. (1989). A 60 kd cdc2-associated polypeptide complexes with the E1A proteins in adenovirus-infected cells. Cell58: 981–990. ArticleCAS Google Scholar
Giordano, A., McCall, C., Whyte, P. & Franza, B. R. Jr (1991). Human cyclin A and the retinoblastoma protein interact with similar but distinguishable sequences in the adenovirus E1A gene product. Oncogene6: 481–485. CASPubMed Google Scholar
Guan, K. L., Jenkins, C. W., Li, Y., Nichols, M. A., Wu, X., O’Keefe, C. L., Matera, A. G. & Xiong, Y. (1994). Growth suppression by p18, a p16INK4/MTS1- and p14INK4B/MTS2-related CDK6 inhibitor, correlates with wild-type pRb function. Genes & Develop8: 2939–2952. ArticleCAS Google Scholar
Graeber, T. G., Peterson, J. F., Tsai, M., Monica, K., Fornace, A. J. Jr & Giaccia, A. J. (1994). Hypoxia induces accumulation of p53 protein, but activation of G1-phase check point by low-oxygen conditions is independent of p53 status. Mol Cell Biol14: 6264–6277. ArticleCAS Google Scholar
Hall, E. J. (1994). The oxygen effect and reoxygenation. In Radiobiology for the Radiologist, 4th edition JB Lippincott: Philadelphia 133–152. Google Scholar
Heacock, C. S. & Sutherland, R. M. (1990). Enhanced synthesis of stress proteins caused by hypoxia and relation to altered cell growth and metabolism. Br J Cancer62: 217–225. ArticleCAS Google Scholar
Heichman, K. A. & Roberts, J. M. (1994). Rules to replicate by. Cell79: 557–562. ArticleCAS Google Scholar
Horowitz, J. M., Yandell, D. W., Park, S. H., Canning, S., Whyte, P., Buchkovich, K., Harlow, E., Weinberg, R. A. & Dryja, T. P. (1989). Point mutational inactivation of the retinoblastoma antioncogene. Science243: 937–940. ArticleCAS Google Scholar
Kaye, F. J., Kratzke, R. A., Gerster, J. L. & Horowitz, J. M. (1990). A single amino acid substitution results in a retinoblastoma protein defective in phosphorylation and oncoprotein binding. Proc Natl Acad Sci USA87: 6922–6926. ArticleCAS Google Scholar
Krtolica, A. & Ludlow, J. W. (1996). Hypoxia arrests ovarian carcinoma cell cycle progression, but invasion is unaffected. Cancer Res56: 1168–1173. CASPubMed Google Scholar
Krtolica, A., Krucher, N. A. & Ludlow, J. W. (1998). Hypoxia-induced pRB hypophosphorylation results from downregulation of CDK and upregulation of PP1 activities. Oncogene17: 2295–2304. ArticleCAS Google Scholar
Krucher, N. A., Krtolica, A., Lincoln, J., Khan, S. A., Rodriguez-Rodriguez, L. & Ludlow, J. W. (1998). Mitogenic activity of steroidogenesis-inducing protein (SIP) during hypoxic stress of human ovarian carcinoma cells. Cancer Letters133: 205–214. ArticleCAS Google Scholar
Laemmli, U. K. (1970). Cleavage of structural proteins during the assembly of the head of bacteriophage T4. Nature227: 680–685. ArticleCAS Google Scholar
Ludlow, J. W., DeCaprio, J. A., Huang, C. M., Lee, W. H., Paucha, E. & Livingston, D. M. (1989). SV40 large T antigen binds preferentially to an underphosphorylated member of the retinoblastoma susceptibility gene product family. Cell56: 57–65. ArticleCAS Google Scholar
Ludlow, J. W., Glendening, C. L., Livingston, D. M. & DeCaprio, J. A. (1993a). Specific enzymatic dephosphorylation of the retinoblastoma protein. Mol Cell Biol13: 367–372. ArticleCAS Google Scholar
Ludlow, J. W., Howell, R. L. & Smith, H. C. (1993b). Hypoxic stress induces reversible hypophosphorylation of pRB and reduction in cyclin A abundance independent of cell cycle progression. Oncogene8: 331–339. CASPubMed Google Scholar
Moulder, J. E. & Rockwell, S. (1987). Tumor hypoxia: its impact on cancer therapy. Cancer Metastasis Rev5: 313–341. ArticleCAS Google Scholar
Nelson, D. A. & Ludlow, J. W. (1997a). Characterization of the mitotic phase pRB-directed protein phosphatase activity. Oncogene14: 2407–2415. ArticleCAS Google Scholar
Nelson, D. A., Krucher, N. A. & Ludlow, J. W. (1997b). High molecular weight protein phosphatase type 1 dephosphorylates the retinoblastoma protein. J Biol Chem272: 4528–4535. ArticleCAS Google Scholar
Resnitzky, D. & Reed, S. I. (1995). Different roles for cyclin D1 and E in regulation of the G1-to-S transition. Mol Cell Biol15: 3463–3469. ArticleCAS Google Scholar
Rofstad, E. K. & Sutherland, R. M. (1988). Radiation sensitivity of human ovarian carcinoma cell lines in vitro: effects of growth factors and hormones, basement membrane, and intercellular contact. Int J Radiation Oncology Biol Phys15: 921–929. ArticleCAS Google Scholar
Sherr, C. J. (1944). G1 phase progression: cycling on cue. Cell79: 551–555. Article Google Scholar
Siggaard-Anderson, O., Gothgen, I. H., Wimberley, P. D. & Fogh-Anderson, N. (1990). The oxygen status of the arterial blood revised: relevant oxygen parameters for monitoring the arterial oxygen availability. Scand J Clin Invest203: 17–28. Article Google Scholar
Sutherland, R. M. (1988). Cell and environment interactions in tumor microregions: the multicellular spheroid model. Science240: 177–184. ArticleCAS Google Scholar
Sutherland, R. M. (1990). Induction of stress proteins and drug resistance in hypoxia and applications of magnetic resonance spectroscopy and cryospectrophotometry for detecting hypoxia in tumors. In Selective Activation of Drugs by Redox Processes, Adams GE (eds), pp. 97–111. Plenum Press: New York Chapter Google Scholar
Todaro, G. J., Green, H. & Swift, M. R. (1966). Susceptibility of human diploid fibroblast strains to transformation by Sv40 virus. Science153: 1252–1254. ArticleCAS Google Scholar
Towbin, H., Staehelin, T. & Gordon, J. (1979). Electrophoretic transfer of proteins from polyacrylamide gels to nitrocellulose sheet: procedure and some applications. Proc Natl Acad Sci USA76: 4350–4354. ArticleCAS Google Scholar
Wilson, R. E., Keng, P. C. & Sutherland, R. M. (1989). Drug resistance in Chinese hamster ovary cells during recovery from severe hypoxia. J Natl Cancer Inst81: 1235–1240. ArticleCAS Google Scholar
Zarkowska, T. & Mittnacht, S. (1997). Differential phosphorylation of the retinoblastoma protein by G1/S cyclin-dependent kinases. J Biol Chem19: 12738–12746. Article Google Scholar