EGF-Related Peptides and Their Receptors in Mammary Gland Development (original) (raw)

REFERENCES

1. G. Carpenter and M. I. Wahl (1991). The epidermal growth factor family. In M. B. Sporn and A. B. Roberts (eds.), Peptide Growth Factors and Their Receptors I, Springer-Verlag, New York, pp. 69–171.
   Google Scholar
2. K. L. Carraway, C. A. C. Carraway, and K. L. Carraway, III (1997). Roles of ErbB-3 and ErbB-4 in physiology and pathology of the mammary gland. J. Mam. Gland Biol. Neoplasia **2(2):**187–198.
   Google Scholar
3. R. Pinkas-Kramarski, I. Alroy, and Y. Yarden (1997). ErbB receptors and EGF-like ligands: cell lineage determination and oncogenesis through combinatorial signaling. J. Mam. Gland Biol. Neoplasia **2(2):**97–107.
   Google Scholar
4. Y. Taketani and T. Oka (1983). Possible physiological role of epidermal growth factor in the development of the mouse mammary gland during pregnancy. FEBS Lett. **152:**256–261.
   Google Scholar
5. Y. Taketani and T. Oka (1983). Biological action of epidermal growth factor and its functional receptors in normal mammary epithelial cells. Proc. Natl. Acad. Sci. U.S.A. **80:**2647–2650.
   Google Scholar
6. Q. J. Tonelli and S. Sorof (1980). Epidermal growth factor requirement for development of cultured mammary gland. Nature **285:**250–252.
   Google Scholar
7. S. Nandi (1958). Endocrine control of mammary gland development and function in the C3H/HeCrg 1 mouse. J. Natl. Cancer Inst. **21:**1039–1063.
   Google Scholar
8. W. R. Lyons, C. H. Li, and R. E. Johnson (1958). The hormonal control of mammary growth and lactation. Recent Prog. Horm. Res. **14:**219–250.
   Google Scholar
9. C. W. Daniel, G. B. Silberstein, and P. Strickland (1988). Direct action of 17β-estradiol on mouse mammary ducts analyzed by sustained release implants and steroid autoradiography. Cancer Res. **47:**6052–6057.
   Google Scholar
10. G. B. Silberstein, K. Van Horn, G. Shyamala, and C. W. Daniel (1994). Essential role of endogenous estrogen in directly stimulating mammary growth demonstrated by implants containing pure antiestrogens. Endocrinology **134:**84–90.
    Google Scholar
11. S. C. Liu, B. Sanfilippo, I. Perroteau, R. Derynck, D. S. Salomon, and W. R. Kidwell (1987). Expression of transforming growth factor α (TGFα) in differentiated rat mammary tumors: Estrogen induction of TGFα production. Mol. Endocrinol. **1:**683–692.
    Google Scholar
12. S. E. Bates, N. E. Davidson, E. M. Valverius, C. E. Freter, R. B. Dickson, J. P. Tam, J. E. Kudlow, M. E. Lippman, and D. S. Salomon (1988). Expression of transforming growth factor α and its messenger ribonucleic acid in human breast cancer: Its regulation by estrogen and its possible functional significance. Mol. Endocrinol. **2:**543–555.
    Google Scholar
13. T. Saeki, A. Cristiano, M. J. Lynch, M. Brattain, N. Kim, N. Normanno, N. Kenny, F. Ciardiello, and D. S. Salomon (1991). Regulation by estrogen through the 5′-flanking region of the transforming growth factor α gene. Mol. Endocrinol. **5:**1955–1963.
    Google Scholar
14. R. B. Dickson and M. E. Lippman (1995). Growth factors in breast cancer. Endocrine Rev. **16:**559–589.
    Google Scholar
15. S. Coleman, G. B. Silberstein and C. W. Daniel (1988). Ductal morphogenensis in the mouse mammary gland: Evidence supporting a role for epidermal growth factor. Develop. Biol. **127:**304–315.
    Google Scholar
16. S. M. Snedeker, C. F. Brown, and R. P. DiAugustine (1992). Expression and functional properties of transforming growth factor α and epidermal growth factor during mouse mammary gland ductal morphogenesis. Proc. Natl. Acad. Sci. U.S.A. **88:**276–280.
    Google Scholar
17. S. Z. Haslam, L. J. Counterman, and K. A. Nummy (1993). Effects of epidermal growth factor, estrogen, and progestin on DNA synthesis in mammary cells in vivo are determined by the developmental state of the gland. J. Cell. Physiol. **155:**72–78.
    Google Scholar
18. G. B. Silberstein and C. W. Daniel (1987). Investigation of mouse mammary ductal growth regulation using slow-release plastic implants. J. Dairy Sci. **70:**1981–1990.
    Google Scholar
19. S. Coleman and C. W. Daniel (1990). Inhibition of mouse mammary ductal morphogenesis and down-regulation of the EGF receptor by epidermal growth factor. Develop. Biol. **137:**425–433.
    Google Scholar
20. S. Z. Haslam, L. J. Counterman, and K. A. Nummy (1992). EGF receptor regulation in normal mouse mammary gland. J. Cell. Physiol. **152:**553–557.
    Google Scholar
21. A. Gompel, A. Martin, P. Simon, D. Schoevaert, G. Plu-Bureau, D. Hugol, J. Audouin, E. Leygue, J. B. Truc, and Ph. Poitout (1996). Epidermal growth factor receptor and c-_erbB_-2 expression in normal breast tissue during the menstrual cycle. Breast Cancer Res. Treat. **38:**227–235.
    Google Scholar
22. E. D. Adamson, M. J. Deller, and J. B. Warshaw (1981). Functional EGF receptors are present on mouse embryo tissues. Nature **291:**656–659.
    Google Scholar
23. E. D. Adamson and J. B. Warshaw (1982). Down-regulation of epidermal growth factor receptors in mouse embryos. Develop. Biol. **90:**430–434.
    Google Scholar
24. F. E. Jones, D. J. Jerry, B. C. Guarino, G. C. Andrews, and D. F. Stern (1996). Heregulin induces in vivo proliferation and differentation of mammary epithelium into secretory lobuloalveoli. Cell Growth Diff. **7:**1031–1038.
    Google Scholar
25. E. Peles, S. S. Bacus, R. A. Koski, H. S. Lu, D. Wen, S. G. Ogden, R. Ben Levy, Y. Yarden (1992). Isolation of the neu/HER-2 stimulatory ligand: a 44 kd glycoprotein that induces differentiation of mammary tumor cells. Cell **69:**205–216.
    Google Scholar
26. S. S. Bacus, E. Huberman, D. Chin, K. Kiguchi, S. Simpson, M. Lippman, and R. Lupu (1992). A ligand for the erbB-2 oncogene product (gp 30) induces differentiation of human breast cancer cells. Cell Growth Diff. **3:**401–411.
    Google Scholar
27. Y. Taketani and T. Oka (1983). Epidermal growth factor stimulates cell proliferation and inhibits functional differentiation of mouse mammary epithelial cells in culture. Endocrinology **113:**871–877.
    Google Scholar
28. C. Q. Lin, P. J. Dempsey, R. J. Coffey, and M. J. Bissell (1995). Extracellular matrix regulates whey acidic protein gene expression by suppression of TGF-α in mouse mammary epithelial cells: Studies in culture and in transgenic mice. J. Cell Biol. **129:**1115–1126.
    Google Scholar
29. L. B. Rall, J. Scott, G. I. Bell, R. J. Crawford, J. D. Penschow, H. D. Niall, and J. P. Coghlan (1985). Mouse prepro-epidermal growth factor synthesis by the kidney and other tissues. Nature **313:**228–231.
    Google Scholar
30. C. F. Brown, C. T. Teng, B. T. Pentecost, R. P. DiAugustine (1989). Epidermal growth factor precursor in mouse lactating mammary gland alveolar cells. Mol. Endocrinol. **3:**1077–1083.
    Google Scholar
31. S. E. Fenton and L. G. Sheffield (1991). Lacotogenic hormones increase epidermal growth factor messenger RNA content of mouse mammary glands. Biochem. Biophy. Res. Comm. **181:**1063–1069.
    Google Scholar
32. G. D. Jahnke, J. Chao, M. P. Walker, and R. P. DiAugustine (1994). Detection of a kallikrein in the mouse lactating mammary gland: A possible processing enzyme for the epidermal growth factor precursor. Endocrinology **135:**2022–2029.
    Google Scholar
33. G. Carpenter (1980). Epidermal growth factor is a major growth promoting agent in human milk. Science **210:**198–199.
    Google Scholar
34. O. Koldovsky (1996). The potential physiological significance of milk-borne hormonally active substances for the neonate. J. Mam. Gland Biol. Neoplasia **1:**317–323.
    Google Scholar
35. D. S. Liscia, G. Merlo, F. Ciardiello, N. Kim, G. H. Smith, R. Callahan, and D. S. Salomon (1990). Transforming growth factor-α messenger RNA localization in the developing adult rat and human mammary gland by in situ hybridization. Develop. Biol. **140:**123–131.
    Google Scholar
36. J. A. Smith, R. Barraclough, D. G. Fernig, and P. S. Rudland (1989). Identification of alpha transforming growth factor as a possible local trophic agent for the mammary gland. J. Cell. Physiol. **141:**326–370.
    Google Scholar
37. P. W. Cook, P. A. Mattox, W. W. Keeble, M. R. Pittelkow, G. D. Plowman, M. Shoyab, J. P. Adelman, and G. D. Shipley (1991). A heparin sulfate-regulated human keratinocyte autocrine factor is similar or identical to amphiregulin. Mol. Cell. Biol. **11:**2547–2557.
    Google Scholar
38. S. Li, G. D. Plowman, S. D. Buckley, and G. D. Shipley (1992). Heparin inhibition of autonomous growth implicates amphiregulin as an autocrine growth factor for normal human mammary epithelial cells. J. Cell. Physiol. **153:**103–111.
    Google Scholar
39. N. J. Kenney, G. H. Smith, I. G. Maroulakou, J. H. Green, W. J. Muller, R. Callahan, D. S. Salomon, and R. B. Dickson (1996). Detection of amphiregulin and cripto-1 in mammary tumors from transgenic mice. Mol. Carcin. **15:**44–56.
    Google Scholar
40. N. J. Kenney, R.-P. Huang, G. Johnson, J.-X. Wu, D. Okamura, W. Matheny, E. Kordon, W. J. Gullick, G. Plowman, G. H. Smith, D. S. Salomon, and E. D. Adamson (1995). Detection and location of amphiregulin and cripto-1 expression in the developing postnatal mouse mammary gland. Mol. Reprod. Dev. **41:**277–286.
    Google Scholar
41. Y. Yang, E. Spitzer, D. Meyer, M. Sachs, C. Niemann, G. Hartmann, K. M. Weidner, C. Birchmeier, and W. Birchmeier (1995). Sequential requirement of hepatocyte growth factor and neuregulin in the morphogenesis and differentiation of the mammary gland. J. Cell Biol. **131:**215–226.
    Google Scholar
42. S. A. Prigent, N. R. Lemoine, C. M. Hughes, G. D. Plowman, C. Selden, and W. J. Gullick (1992). Expression of the c-_erb_B-3 protein in normal human adult and fetal tissues. Oncogene **7:**1273–1278.
    Google Scholar
43. Z. Sheng, K. Wu, K. L. Carraway, and N. Fregien (1992). Molecular cloning of the transmembrane component of the 13762 mammary adenocarcinoma sialomucin complex. A new member of the epidermal growth factor superfamily. J. Biol. Chem. **267:**16341–16346.
    Google Scholar
44. K. Wu, P. J. I. Salas, L. Yee, N. Fregien, and K. L. Carraway (1994). Tissue and tumor expression of a cell surface glycoprotein complex containing an integral membrane glycoprotein activator of p185neu. Oncogene **9:**3139–3147.
    Google Scholar
45. K. S. Korach (1994). Insights from the study of animals lacking functional estrogen receptor. Science **266:**1524–1527.
    Google Scholar
46. J. P. Lydon, F. J. DeMayo, O. M. Conneely, and B. W. O'Malley (1996). Reproductive phenotypes of the progesterone receptor null mutant mouse. J. Steroid Biochem. Molec. Biol. **56:**67–77.
    Google Scholar
47. N. C. Luetteke, H. K. Phillips, T. H. Qiu, N. G. Copeland, H. S. Earp, N. A. Jenkins, and D. C. Lee (1994). The mouse waved-2 phenotype results from a point mutation in the EGF receptor tyrosine kinase. Genes Develop. **8:**399–413.
    Google Scholar
48. K. J. Fowler, F. Walker, W. Alexander, M. L. Hibbs, E. C. Nice, R. M. Bohmer, G. B. Mann, C. Thumwood, R. Maglitto, J. A. Danks, R. Chetty, A. W. Burgess, and A. R. Dunn (1995). A mutation in the epidermal growth factor receptor in waved-2 mice has a profound effect on receptor biochemistry that results in impaired lactation. Proc. Natl. Acad. Sci. U.S.A. **92:**1465–1469.
    Google Scholar
49. G. B. Mann, K. J. Fowler, A. Gabriel, E. C. Nice, R. L. Williams, and A. R. Dunn (1993). Mice with a null mutation of the TGFα gene have abnormal skin architecture, wavy hair, and curly whiskers and often develop corneal inflammation. Cell **73:**249–261.
    Google Scholar
50. N. C. Luetteke, T. H. Qiu, R. L. Peiffer, P. Oliver, O. Smithies, and D. C. Lee (1993). TGFα deficiency results in hair follicle and eye abnormalities in targeted and waved-1 mice. Cell **73:**263–278.
    Google Scholar
51. L. T. Amundadottir, G. Merlino, and R. B. Dickson (1996). Transgenic mouse models of breast cancer. Breast Cancer Res. Treat. **39:**119–135.
    Google Scholar
52. R. D. Cardiff (1996). The biology of mammary transgenes: Five rules. J. Mam. Gland Biol. Neoplasia **1:**61–73.
    Google Scholar
53. R. G. Richards, R. P. DiAugustine, P. Petrusz, G. C. Clark, and J. Sebastian (1996). Estradiol stimulates tyrosine phosphorylation of the insulin-like growth factor-1 receptor and insulin receptor substrate-1 in the uterus. Proc. Natl. Acad. Sci. U.S.A. **93:**12002–12007.
    Google Scholar
54. T. Wada, X. Qian, and M. I. Greene (1990). Intermolecular association of the p185neu protein and EGF receptor modulates EGF receptor function. Cell **61:**1339–1347.
    Google Scholar
55. R. Goldman, R. Ben-Levy, E. Peles, and Y. Yarden (1990). Heterodimerization of the erbB-1 and ErbB-2 receptors in human breast carcinoma cells: a mechanism for receptor trans-regulation. Biochem. **29:**11024–11028.
    Google Scholar
56. P. Ordronneau, P. B.-M. Lindstrom, and P. Petrusz (1981). Four unlabeled antibody bridge techniques: a comparison. J. Histochem. Cytochem. **29:**1397–1404.
    Google Scholar

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