Portal de Periódicos da CAPES

Hormone‐Responsive Creatine Kinase in Normal and Neoplastic Mammary Glands a

1986; Wiley; Volume: 464; Issue: 1 Linguagem: Inglês

10.1111/j.1749-6632.1986.tb16006.x

1749-6632

Alvin M. Kaye, R. C. Hallowes, Simon Cox, Mels Sluyser,

Metabolism, Diabetes, and Cancer

Annals of the New York Academy of SciencesVolume 464, Issue 1 p. 218-230 Full Access Hormone-Responsive Creatine Kinase in Normal and Neoplastic Mammary Glandsa ALVIN M. KAYE, ALVIN M. KAYE Incumbent of the Joseph Moss Professorial Chair in Molecular Endocrinology Department of Hormone Research Weizmann Institute of Science Rehovot, IsraelSearch for more papers by this authorRICHARD HALLOWES, RICHARD HALLOWES Tissue Cell Relationships Laboratory Imperial Cancer Research Fund London, EnglandSearch for more papers by this authorSIMON COX, SIMON COX Tissue Cell Relationships Laboratory Imperial Cancer Research Fund London, EnglandSearch for more papers by this authorMELS SLUYSER, MELS SLUYSER Division of Endocrinology Netherlands Cancer Institute Amsterdam, the NetherlandsSearch for more papers by this author ALVIN M. KAYE, ALVIN M. KAYE Incumbent of the Joseph Moss Professorial Chair in Molecular Endocrinology Department of Hormone Research Weizmann Institute of Science Rehovot, IsraelSearch for more papers by this authorRICHARD HALLOWES, RICHARD HALLOWES Tissue Cell Relationships Laboratory Imperial Cancer Research Fund London, EnglandSearch for more papers by this authorSIMON COX, SIMON COX Tissue Cell Relationships Laboratory Imperial Cancer Research Fund London, EnglandSearch for more papers by this authorMELS SLUYSER, MELS SLUYSER Division of Endocrinology Netherlands Cancer Institute Amsterdam, the NetherlandsSearch for more papers by this author First published: June 1986 https://doi.org/10.1111/j.1749-6632.1986.tb16006.xCitations: 15 a The work at the Weizmann Institute of Science was supported in part by grants from the Rockefeller and Ford Foundations to the late H. R. Lindner. AboutReferencesRelatedInformationPDFPDF ToolsRequest permissionExport citationAdd to favoritesTrack citation ShareShare Give accessShare full text accessClose modalShare full-text accessPlease review our Terms and Conditions of Use and check box below to share full-text version of article.I have read and accept the Wiley Online Library Terms and Conditions of UseShareable LinkUse the link below to share a full-text version of this article with your friends and colleagues. Learn more.Copy URL References 1 NOTIDES, A. & J. GORSKI. 1966. Estrogen-induced synthesis of a specific uterine protein. Proc. Natl. Acad. Sci. USA 56: 230– 235. 2 BARNEA, A. & J. GORSKI. 1970. Estrogen-induced protein. Time course of synthesis. Biochemistry 9: 1899– 1904. 3 KATZENELLENBOGEN, B. S. & J. GORSKI. 1972. Estrogen action in vitro. J. Biol. Chem. 247: 1299– 1305. 4 MAIRESSE, N., J. C. HEUSON, P. GALAND & G. LECLERCQ. 1977. Oestrogen-induced protein in rat mammary tumor and uterus. J. Endocrinol. 75: 331– 332. 5 KAYE, A. M., N. REISS, S. IACOBELLI, E. BARTOCCIONI & P. MARCHETTI. 1980. The ‘estrogen induced protein’ in normal and neoplastic cells. In Hormones and Cancer. S. Iacobelli, R. J. B. King, H. R. Lindner & M. E. Lippman, Eds.: 41– 52. Raven Press, New York . 6 MAIRESSE, N., N. DEULEESCHONUER, G. LECLERCQ & P. GALAND. 1980. Estrogeninduced protein in the human breast cancer cell line MCF-7. Biochem. Biophys. Res. Commun. 97: 1251– 1257. 7 REISS, N. A. & A. M. KAYE. 1981. Identification of the major component of the estrogen induced protein of rat uterus as the BB isozyme of creatine kinase. J. Biol. Chem. 256: 5741– 5749. 8 KAYE, A. M., N. REISS, A. SHAER, M. SLUYSER, S. IACOBELLI, D. AMROCH & Y. SOFFER. 1981. Estrogen responsive creatine kinase in normal and neoplastic cells. J. Steroid Biochem. 15: 69– 75. 9 SHATTON, J. B., H. P. MORRIS & S. WEINHOUSE. 1979. Creatine kinase activity and isozyme composition in normal tissues and neoplasms of rats and mice. Cancer Res. 39: 492– 501. 10 DELUCA, M., N. HALL, R. RICE & N. O. KAPLAN. 1981. Creatine kinase isozymes in human tumors. Biochem. Biophys. Res. Commun. 99: 189– 195. 11 MALNICK, S. D. H., A. SHAER, H. SOREQ & A. M. KAYE. 1983. Estrogen-induced creatine kinase in the reproductive system of the immature female rat. Endocrinology 113: 1907– 1909. 12 KAYE, A. M., N. A. REISS, Y. WEISMAN, I. BINDERMAN & D. SÖMJEN. 1985. Hormonal regulation of creatine kinase BB. In Cellular Bioenergetics and Compartmentation. N. Brautbar, Ed. Plenum. New York , NY . In press. 13 KATZMAN, P. A., D. L. LARSON & K. C. PODRATZ. 1971. Effects of estradiol on metabolism of vaginal tissue. In The Sex Steroids: Molecular Mechanisms. K. W. McKerns, Ed.: 107– 147. Appleton-Century-Crofts. New York , NY . 14 VÉRTES, M., J. KÖRNYEI, L. NAGY, Z. VÉRTES & S. KOVACS. 1981. Stimulation by oestradiol of soluble-protein synthesis in rat hypothalamus. Mol. Cell. Endocrinol. 22: 329– 338. 15 MARCHETTI, P., G. SCAMBIA, A. M. KAYE, N. REISS, D. COCCHIA & S. IACOBELLI. 1984. Estrogen-responsive creatine kinase in reticulo-epithelial cells of rat thymus. J. Steroid Biochem. 20: 835– 839. 16 IYENGAR, M. R., C. E. FLUELLEN & C. W. L. IYENGAR. 1980. Increased creatine kinase in the hormone-stimulated smooth muscle of the bovine uterus. Biochem. Biophys. Res. Commun. 94: 948– 954. 17 SCAMBIA, G., P. BENEDETTI-PANICI, S. MANCUSO & G. SICA. 1984. Hormone-responsive enzymatic activities in an androgen-dependent murine mammary carcinoma. Abstract #73. International Congress on Endocrinology of the Breast. Torino, Italy, September 19–22, 1984. 18 SÖMJEN, D., Y. WEISMAN, I. BINDERMAN & A. M. KAYE. 1984. Stimulation of creatine kinase BB activity by lα,25-dihydroxycholecalciferol and 24R,25-dihydroxy cholecalciferol in rat tissues. Biochem. J. 219: 1037– 1041. 19 SÖMJEN, D., I. BINDERMAN, Y. WEIZMAN & A. M. KAYE. 1985. Regulation of creatine kinase BB: A response marker for metabolites of vitamin D. In Current Advances in Skeletogenesis. A. Harell, J. Sela & A. Ornoy, Eds.: 183– 188. Elsevier. Amsterdam , the Netherlands . 20 SÖMJEN, D., A. M. KAYE & I. BINDERMAN. 1984. 24R,25-dihydroxy vitamin D stimulates creatine kinase BB activity in chick cartilage cells in culture. FEBS Lett. 167: 281– 284. 21 SÖMJEN, D., A. M. KAYE & I. BINDERMAN. 1985. Hormonal regulation of creatine kinase BB in normal and transformed bone cells. In Current Advances in Skeletogenesis. A. Harell, J. Sela & A. Ornoy, Eds.: 85– 90. Elsevier. Amsterdam , the Netherlands . 22 LITTAUER, U. Z., A. ZUTRA, S. RYBAK & I. GINZBURG. 1985. The expression of tubulin and various enzyme activities during neuroblastoma differentiation. In Advances in Neuroblastoma Research. A. E. Evans, G. D'Angio, & R. C. Seeger, Eds.: 193– 208. Alan R. Liss. New York , NY . 23 SLUYSER, M. 1980. The emergence of hormone-independent cells in hormone-dependent breast cancer. In Cell Biology of Breast Cancer. C. M. McGrath, M. J. Brennan & M. A. Rich, Eds.: 173– 187, Academic Press. New York , NY . 24 SLUYSER, M. & R. VAN NIE. 1974. Estrogen receptor content and hormone-responsive growth of mouse mammary tumor. Cancer Res. 34: 3252– 3257. 25 SLUYSER, M., S. G. EVERS & C. C. J. DE GOEIJ. 1976. Sex hormone receptors in mammary tumours of GR mice. Nature 263: 386– 389. 26 COSTLOW, M. E., M. SLUYSER & P. E. GALLAGHER. 1977. Prolactin receptors in mammary tumors of GR mice. Endocr. Res. Commun. 4: 285– 294. 27 AMROCH, D., S. Cox, A. SHAER, S. MALNICK, S. CHATSUBI, R. HALLOWES & A. M. KAYE. 1984. Estrogen responsive creatine kinase in normal and neoplastic human breast. In Hormones and Cancer. Vol. II. F. Bresciani, R. J. B. King, M. Lippman, M. Namer & J. P. Raynaud, Eds.: 633– 641. Raven Press. New York , NY . 28 STAMPFER, M., R. C. HALLOWES & A. HACKETT. 1980. Growth of normal human mammary cells in culture. In Vitro 16: 415– 425. 29 HALLOWES, R. C., E. J. BONE & W. JONES. 1980. A new dimension in the culture of human breast. In Tissue Culture in Medical Research. R. J. Richards & K. T. Rajan, Eds. Vol. II: 213– 220. Pergamon Press. Oxford . 30 MCGUIRE, W. L. 1980. An update on estrogen and progesterone receptors in prognosis for primary and advanced breast cancer. In Hormones and Cancer. S. Iacobelli, R. J. B. King, H. R. Lindner & M. E. Lippman, Eds.: 337– 343. Raven Press. New York , NY . 31 MCCARTY, K. S., JR., C. COX & J. S. SILVA. 1980. Comparison of sex steroid receptor analyses and carcinoembryonic antigen with clinical response to hormone therapy. Cancer 46: 2846– 2850. 32 KING, R. J. B., J. F. STEWART, R. R. MILLIS, R. D. RUBENS & J. L. HAYWARD. 1982. Quantitative comparison of estradiol and progesterone receptor contents of primary and metastatic breast tumors in relation to response to endocrine treatment. Breast Cancer Res. Treat. 2: 339– 346. 33 LEAKE, R. E. 1984. Clinical aspects of steroid receptor assays. Med. Lab. Sci. 41: 257– 261. 34 KING, R. J. B., J. L. HAYWARD, S. KUMAOKA & H. YAMAMOTO. 1977. Comparison of soluble oestrogen and progestin receptor content of primary breast tumors from Japan and Britain. Eur. J. Cancer 13: 967– 970. 35 KING, R. J. B., S. REDGRAVE, J. L. HAYWARD, R. R. MILLIS & R. D. RUBENS. 1979. The measurement of receptors for oestradiol and progesterone in human breast tumors. In Steroid Receptor Assays in Human Breast Cancer. R. J. B. King, Ed.: 55– 72. Omega. Cardiff, Wales . 36 LUNDIN, A. & I. STYRELIUS. 1978. Sensitive assay of creatine kinase isoenzymes in human serum using M-subunit inhibiting antibody and firefly luciferase. Clin. Chem. Acta 87: 199– 209. 37 LÖVGREN, T. & A. LUNDIN. 1980. Bioluminescence ATP monitoring as a method for the determination of total creatine kinase and creatine kinase B subunit activity in human serum. Fresenius Z. Anal. Chem. 301: 149– 150. 38 SHAER, A., D. AMROCH, S. MALNICK & A. M. KAYE. 1982. Estrogen-responsive creatine kinase in normal human breast tissue. Israel J. Med. Sci. 18: 565. 39 KRATOCHWIL, K. & P. SCHWARTZ. 1976. Tissue interaction in androgen response of embryonic mammary rudiment of mouse: Identification of target tissue for testosterone. Proc. Natl. Acad. Sci. USA 73: 4041– 4044. 40 HENBERGER, B., I. FITZKA, G. WASNER & K. KRATOCHWIL. 1982. Induction of androgen receptor formation by epithelium-mesenchyme interaction in embryonic mouse mammary gland. Proc. Natl. Acad. Sci. USA 79: 2957– 2961. 41 CUNHA, G. R., L. W. K. CHUNG, J. M. SHANNON, O. TAGUCHI & H. FUJII. 1983. Hormoneinduced morphogenesis and growth: Role of mesenchymal-epithelial interactions. Rec. Prog. Horm. Res. 39: 559– 598. Citing Literature Volume464, Issue1Endocrinology of the Breast: Basic and Clinical AspectsJune 1986Pages 218-230 ReferencesRelatedInformation RecommendedRegulation and Formation of the Drosophila Salivary GlandsDEBORAH J. ANDREW, Annals of the New York Academy of SciencesFAK Signaling in Neoplastic DisordersNAING NAING MON, SATOKO ITO, TAKESHI SENGA, MICHINARI HAMAGUCHI, Annals of the New York Academy of SciencesCreatine Kinase Activity and Steroid Hormone Receptors in Primary Breast CancerGIOVANNI SCAMBIA, PIERLUIGI BENEDETTI PANICI, GIGLIOLA SICA, VITTORIA NATOLI, ALESSANDRO CARUSO, SALVATORE MANCUSO, Annals of the New York Academy of SciencesMetabolism and Biologic Response of Estrogen Sulfates in Hormone‐Dependent and Hormone‐Independent Mammary Cancer Cell Lines. Effect of AntiestrogensJorge R. Pasqualini, C. Gelly, B.-L. Nguyen, Annals of the New York Academy of Sciencesα‐Thrombin Activates Akt via a Nonreceptor Tyrosine Kinase in IIC9 CellsPOLLY J. PHILLIPS-MASON, REEMA GOEL, JOSEPH J. BALDASSARE, Annals of the New York Academy of Sciences