Role of mesenchymal-epithelial interactions in mammary gland development (original) (raw)
C. C. Boring, T. S. Squires, and T. Tong (1992). Cancer statistics, 1992.Ca Cancer J. Clin.4219–38. PubMed Google Scholar
G. R. Cunha, A. A. Donjacour, P. S. Cooke, S. Mee, R. M. Bigsby, S. J. Higgins, and Y. Sugimura (1987). The endocrinology and developmental biology of the prostate.Endocrine Rev.8338–363. Google Scholar
T. Sakakura (1991). New aspects of stroma-parenchyma relations in mammary gland differentiation.Int. Rev. Cytol.125165–202. PubMed Google Scholar
K. Haffen, M. Kedinger, and P. Simon-Assmann (1987). Mesenchyme-dependent differentiation of epithelial progenitor cells in the gut.J. Pediatr. Gastroenterol. Nutr.614–23. PubMed Google Scholar
T. Sakakura (1987). Mammary embryogensis. In C. W. Neville and M. C. Daniel (eds.),The Mammary Gland: Development, Regulation, and Function Plenum Press, New York, pp. 37–66. Google Scholar
K. Kratochwil (1987). Tissue combination and organ culture studies in the development of the embryonic mammary gland. In R. B. L. Gwatkin (ed.),Developmental Biology: A Comprehensive Synthesis Plenum Press, New York, pp. 315–334. Google Scholar
C. W. Daniel and G. B. Silberstein (1987). Postnatal development of the rodent mammary gland. In M. C. Neville and C. W. Daniel (eds.),The Mammary Gland Development, Regulation and Function Plenum Press, New York, pp. 3–36. Google Scholar
A. Raynaud (1961). Morphogenesis of the mammary gland. In S. K. Kon and A. T. Cowie (eds.),Milk: The Mammary Gland and Its Secretion Academic Press, New York, pp. 3–46. Google Scholar
A. Propper (1972). Rôle du mésenchyme dans la différenciation de la glande mammaire chez l'embryon de lapin.Bull. Soc. Zool. Fr.97505–512. Google Scholar
B. I. Balinsky (1950). On the developmental processes in mammary glands and other epidermal structures.Trans. R. Soc. Edinb.621–31. Google Scholar
A. Y. Propper (1978). Wandering epithelial cells in rabbit embryo milk line.Dev. Biol.67225–231. ArticlePubMed Google Scholar
G. R. Cunha, P. Young, K. Christov, R. Guzman, S. Nandi, F. Talamantes, and G. Thordarson (1995). Mammary phenotypic expression induced in epidermal cells by embryonic mammary mesenchyme.Acta Anat.152195–204. PubMed Google Scholar
J. Taylor-Papadimitriou and E. B. Lane (1987). Keratin expression in the mammary gland. In M. C. Neville and C. W. Daniel (eds.),The Mammary Gland: Development, Regulation, and Function Plenum Press, New York, pp. 181–215. Google Scholar
T. Sakakura, Y. Nishizuka, and C. J. Dawe (1976). Mesenchyme-dependent morphogenesis and epithelium-specific cytodifferentiation in mouse mammary gland.Science1941439–1441. PubMed Google Scholar
G. R. Cunha, P. Young, S. Hamamoto, R. Guzman, and S. Nandi (1992). Developmental response of adult mammary epithelial cells to various fetal and neonatal mesenchymes.Epithelial Cell Biol.1105–118. PubMed Google Scholar
K. Kratochwil (1975). Experimental analysis of the prenatal development of the mammary gland.Mod. Probl. Pediat.151–15. Google Scholar
K. Kratochwil and P. Schwartz (1976). Tissue interaction in androgen response of embryonic mammary rudiment of mouse: Identification of target tissue of testosterone.Proc. Natl. Acad. Sci. USA734041–4044. PubMed Google Scholar
K. Korach (1994). Insights from the study of animals lacking functional estrogen receptor.Science2661524–1527. PubMed Google Scholar
Y. Matsui, S. A. Halter, J. T. Holt, B. L. M. Hogan, and R. J. Coffey (1990). Development of mammary hyperplasia and neoplasia in MMTV-TGFα transgenic mice.Cell611147–1155. ArticlePubMed Google Scholar
C. Jhappan, C. Stahle, R. N. Harkins, N. Fausto, G. H. Smith, and G. T. Merlino (1990). TGFα overexpression in transgenic mice induces liver neoplasia and abnormal development of the mammary gland and pancreas.Cell611137–1146. ArticlePubMed Google Scholar
E. P. Sandgren, N. C. Luetteke, R. D. Palmiter, R. L. Brinster, and D. C. Lee (1990). Overexpression of TGFα in transgenic mice: Induction of epithelial hyperplasia, pancreatic metaplasia, and carcinoma of the breast.Cell611121–1135. ArticlePubMed Google Scholar
G. Stamp, V. Fantl, R. Poulsom, S. Jamieson, R. Smith, G. Peters, and C. Dickson (1992). Nonuniform expression of a mouse mammary tumor virus-driven_int_-2/Fgf-3 transgene in pregnancy-responsive breast tumors.Cell Growth Differ.3929–938. PubMed Google Scholar
J. W. Muller, F. S. Lee, C. Dickson, G. Peters, P. Pattengale, and P. Leder (1990). The_int_-2 gene product acts as an epithelial growth factor in transgenic mice.EMBO J.9907–913. PubMed Google Scholar
A. S. Tsukamoto, R. Grosschedl, R. C. Guzman, T. Parslow, and H. E. Varmus (1988). Expression of the_int_-1 gene in transgenic mice is associated with mammary gland hyperplasia and adenocarcinomas in male and female mice.Cell59619–625. Article Google Scholar
D. F. Pierce, Jr., M. D. Johnson, Y. Matsui, S. D. Robinson, L. I. Gold, A. F. Purchio, C. W. Daniel, B. L. Hogan, and H. L. Moses (1993). Inhibition of mammary duct development but not alveolar outgrowth during pregnancy in transgenic mice expressing active TGF-beta 1.Genes Dev.72308–2317. PubMed Google Scholar
T. P. Lin, R. C. Guzman, R. C. Osborn, G. Thordarson, and S. Nandi (1992). Role of endocrine, autocrine, and paracrine interactions in the development of mammary hyperplasia in Wnt-1 transgenic mice.Cancer Res.524413–4419. PubMed Google Scholar
K. Kratochwil (1977). Development and loss of androgen responsiveness in the embryonic rudiment of the mouse mammary gland.Dev. Biol.61358–365. ArticlePubMed Google Scholar
T. Sakakura, Y. Sakagami, and Y. Nishizuka (1982). Dual origin of mesenchymal tissues participating in mouse mammary gland embryogenesis.Dev. Biol.91202–207. ArticlePubMed Google Scholar
K. B. DeOme, L. J. Faulkin, Jr., and H. A. Bern (1959). Development of mammary tumors from hyperplastic alveolar nodules transplanted into gland-free mammary fat pads of female C3H mice.Cancer Res.19515–520. PubMed Google Scholar
T. Sakakura, I. Kusano, M. Kusakabe, Y. Inaguma, and Y. Nishizuka (1987). Biology of mammary fat pad in fetal mouse: Capacity to support development of various fetal epithelia_in vivo_.Development100421–430. PubMed Google Scholar
R. Narbaitz, W. E. Stumpf, and M. Sar (1980). Estrogen receptors in mammary gland primordia of fetal mouse.Anat. Embryol.158161–166. ArticlePubMed Google Scholar
S. Z. Haslam and G. Shyamala (1981). Relative distribution of estrogen and progesterone receptors among the epithelial, adipose, and connective tissue components of the normal mammary gland.Endocrinology108825–830. PubMed Google Scholar
M. J. Bissell and H. G. Hall (1987). Form and function in the mammary gland: The role of extracellular matrix. In M. C. Neville and C. W. Daniel (eds.),The Mammary Gland: Development, Regulation, and Function Plenum Press, New York, pp. 97–146. Google Scholar
S. Nandi (1958). Endocrine control of mammary gland development and function in the C3H/He Crgl mouse.J. Natl. Cancer Inst.211039–1063. PubMed Google Scholar
R. L. Ceriani (1970). Fetal mammary gland differentiation_in vitro_ in response to hormones. I. Morphological findings.Dev. Biol.21506–529. ArticlePubMed Google Scholar
R. L. Ceriani (1970). Fetal mammary gland differentiation_in vitro_ in response to hormones. II. Biochemical findings.Dev. Biol.21530–546. ArticlePubMed Google Scholar
H. Nagasawa and T. Mori (1988). Long-term effects of perinatal exposure to hormones and related substances on normal and neoplastic growth of murine mammary glands. In T. Mori and H. Nagasawa (eds.),Toxicity of Hormones in Perinatal Life CRC Press, Boca Raton, Florida pp. 81–88. Google Scholar
S. Z. Haslam and K. A. Nummy (1992). The ontogeny and cellular distribution of estrogen receptors in normal mouse mammary gland.J. Steroid Biochem. Mol. Biol.42589–595. ArticlePubMed Google Scholar
B. Mintz (1978). Genetic mosaicism and_in vivo_ analyses of neoplasia and differentiation. In G. Saunders (ed.),Cell Differentiation and Neoplasia Raven Press, New York, pp. 27–56. Google Scholar
G. R. Cunha, N. Hayashi, and Y. C. Wong (1991). Regulation and growth of normal adult and neoplastic epithelial by inductive mesenchyme. In J. T. Issacs (ed.),Prostate Cancer: Cell and Molecular Mechanisms in Diagnosis and Treatment Cold Spring Harbor Laboratory Press, Cold Spring Harbor, New York, pp. 73–90. Google Scholar
J. J. De Cosse, C. L. Gossens, J. F. Kuzma, and B. R. Unsworth (1975). Embryonic inductive tissues that cause histological differentiation of murine mammary carcinoma_in vitro_.J. Natl. Cancer Inst.54913–921. PubMed Google Scholar
S. Sakaguchi, T. Takahashi, T. Sakakura, Y. Sakagami, Y. Nishizuka, and H. Tanaka (1981). Earlier appearance of murine mammary tumor virus-associated antigens in duct-alveolus nodules induced by transplantation of fetal salivary mesenchyme into C3H mouse mammary glands.Gann72982–987. PubMed Google Scholar
T. Sakakura (1983). Epithelial-mesenchymal interactions in mammary gland development and its perturbation in relation to tumorigenesis. In M. A. Rich, J. C. Hager, and P. Furmanski (eds.),Understanding Breast Cancer: Clinical and Laboratory Concepts Marcel Dekker, New York, pp. 261–284. Google Scholar
T. Sakakura, Y. Sakagami, and Y. Nishizuka (1981). Accelerated mammary cancer development by fetal salivary mesenchyme isografted to adult mouse mammary epithelium.J. Natl. Cancer Inst.66953–959. PubMed Google Scholar
G. B. Silberstein and C. W. Daniel (1987). Reversible inhibition of mammary gland growth by transforming growth factor-beta.Science237291–293. PubMed Google Scholar
C. W. Daniel and S. D. Robinson (1992). Regulation of mammary growth and function by TGF-beta.Mol. Reprod. Dev.32145–151. ArticlePubMed Google Scholar
S. P. Ethier and R. M. Van de Velde (1990). Secretion of a TGF-β-like growth inhibitor by normal rat mammary epithelial cells_in vitro_.J. Cell. Physiol.14215–20. ArticlePubMed Google Scholar
C. Knabbe, M. E. Lippman, L. M. Wakefield, K. C. Flanders, A. Kasid, R. Derynck, and R. B. Dickson (1987). Evidence that transforming growth factor-beta is a hormonally regulated negative growth factor in human breast cancer cells.Cell48417–428. ArticlePubMed Google Scholar
C. W. Daniel, G. B. Silberstein, K. Van Horn, P. Strickland, and S. Robinson (1989). TGF-β1-Induced inhibition of mouse mammary ductal growth: Developmental specificity and characterization.Dev. Biol.13520–30. ArticlePubMed Google Scholar
S. D. Robinson, G. B. Silberstein, A. B. Roberts, K. C. Flanders, and C. W. Daniel (1991). Regulated expression and growth inhibitory effects of transforming growth factor-β isoforms in mouse mammary gland development.Development113867–878. PubMed Google Scholar
G. B. Silberstein, S. Strickland, S. Coleman, and C. W. Daniel (1990). Epithelium-dependent extracellular matrix synthesis in transforming growth factor-beta 1-growth-inhibited mouse mammary gland.J. Cell Biol.1102209–2219. PubMed Google Scholar
G. B. Silberstein, K. C. Flanders, A. B. Roberts, and C. W. Daniel (1992). Regulation of mammary morphogenesis: Evidence for extracellular matrix-mediated inhibition of ductal budding by transforming growth factor-beta 1.Dev. Biol.152354–362. ArticlePubMed Google Scholar
S. D. Robinson, A. B. Roberts, and C. W. Daniel (1993). TGF beta suppresses casein synthesis in mouse mammary explants and may play a role in controlling milk levels during pregnancy.J. Cell Biol.120245–251. PubMed Google Scholar
A. W. Sudlow, C. J. Wilde, and R. D. Burgoyne (1994). Transforming growth factor-beta 1 inhibits casein secretion from differentiating mammary-gland explants but not from lactating mammary cells.Biochem J.304333–336. PubMed Google Scholar
T. Yamamoto, H. Komura, K. Morishige, C. Tadokoro, M. Sakata, H. Kurachi, and A. Miyake (1994). Involvement of autocrine mechanism of transforming growth factor-beta in the functional differentiation of pregnant mouse mammary gland.Eur. J. Endocrinol.130302–307. PubMed Google Scholar
M. Mieth, F. D. Boehmer, R. Ball, B. Groner, and R. Grosse (1990). Transforming growth factor-beta inhibits lactogenic hormone induction of beta-casein expression in HC11 mouse mammary epithelial cells.Growth Factors49–15. PubMed Google Scholar
C. Jhappan, A. G. Geiser, E. C. Kordon, D. Bagheri, L. Hennighausen, A. B. Roberts, G. H. Smith, and G. Merlino (1993). Targeting expression of a transforming growth factor beta 1 transgene to the pregnant mammary gland inhibits alveolar development and lactation.EMBO J.121835–1845. PubMed Google Scholar
D. S. Liscia, G. Merlo, F. Ciardiello, N. Kim, G. H. Smith, R. Callahan, and D. S. Salomon (1990). Transforming growth factor-alpha messenger RNA localization in the developing adult rat and human mammary gland by_in situ_ hybridization.Dev. Biol.140123–131. ArticlePubMed Google Scholar
S. M. Snedeker, C. F. Brown, and R. P. DiAugustine (1991). Expression and functional properties of transforming growth factor α and epidermal growth factor during mouse mammary gland ductal morphogenesis.Proc. Natl. Acad. Sci. USA88276–280. PubMed Google Scholar
E. M. Valverius, S. E. Bates, M. R. Stampfer, R. Clark, F. McCormick, D. S. Salomon, M. E. Lippman, and R. B. Dickson (1989). Transforming growth factor alpha production and epidermal growth factor receptor expression in normal and oncogene transformed human mammary epithelial cells.Mol. Endocrinol3203–214. PubMed Google Scholar
W. Imagawa, G. K. Bandyopadhyay, and S. Nandi (1990). Regulation of mammary epithelial cell growth in mice and rats.Endocrine Rev.11494–523. Google Scholar
B. K. Vonderhaar (1987). Local effects of EGF, alpha-TGF, and EGF-like growth factors on lobuloalveolar development of the mouse mammary gland_in vivo_.J. Cell. Physiol.132581–584. ArticlePubMed Google Scholar
R. J. Coffey, Jr., K. S. Meise, Y. Matsui, B. L. Hogan, P. J. Dempsey, and S. A. Halter (1994). Acceleration of mammary neoplasia in transforming growth factor alpha transgenic mice by 7,12-dimethylbenzanthracene.Cancer Res.541678–1683. PubMed Google Scholar
S. A. Halter, P. Dempsey, Y. Matsui, M. K. Stokes, D. R. Graves, B. L. Hogan, and R. J. Coffey (1992). Distinctive patterns of hyperplasia in transgenic mice with mouse mammary tumor virus transforming growth factor-alpha. Characterization of mammary gland and skin proliferations.Am. J. Pathol.1401131–1146. PubMed Google Scholar
S. Sakai, M. Mizuno, T. Harigaya, K. Yamamoto, T. Mori, R. J. Coffey, and H. Nagasawa (1994). Cause of failure of lactation in mouse mammary tumor virus/human transforming growth factor alpha transgenic mice.Proc. Soc. Exp. Biol. Med.205236–242. PubMed Google Scholar
S. A. Aaronson, J. S. Rubin, P. W. Finch, J. Wong, C. Marchese, J. Falco, W. G. Taylor, and M. H. Kraus (1990). Growth factor-regulated pathways in epithelial cell proliferation.Am. Rev. Respir. Dis.142S7–10. PubMed Google Scholar
W. Imagawa, G. R. Cunha, P. Young, and S. Nandi (1994). Keratinocyte growth factor and acidic fibroblast growth factor are mitogens for primary cultures of mammary epithelium.Biochem. Biophys. Res. Commun.2041165–1169. ArticlePubMed Google Scholar
T. R. Ulich, E. S. Yi, R. Cardiff, S. Yin, N. Bikhazi, R. Biltz, C. F. Morris, and G. F. Pierce (1994). Keratinocyte growth factor is a growth factor for mammary epithelium_in vivo_. The mammary epithelium of lactating rats is resistant to the proliferative action of keratinocyte growth factor.Am. J. Pathol.144862–868. PubMed Google Scholar
E. S. Yi, A. A. Bedoya, H. Lee, S. Kim, R. M. Housley, S. L. Aukerman, J. E. Tarpley, C. Starnes, C. Starnes, S. Yin, G. F. Pierce,et al. (1994). Keratinocyte growth factor causes cystic dilation of the mammary glands of mice. Interactions of keratinocyte growth factor, estrogen, and progesterone_in vivo_.Am. J. Pathol.1451015–1022. PubMed Google Scholar
T. R. Ulich, E. S. Yi, K. Longmuir, S. Yin, R. Biltz, C. F. Morris, R. M. Housley, and G. F. Pierce (1994). Keratinocyte growth factor is a growth factor for type II pneumocytes_in vivo_.J. Clin. Invest.931298–1306. PubMed Google Scholar
P. W. Finch, G. R. Cunha, J. S. Rubin, J. Wong, and D. Ron (1995). Pattern of KGF and KGFR expression during mouse fetal development suggests a role in mediating morphogenetic mesenchymal-epithelial interactions.Dev. Dynam. (in press).