Signaling through the stromal epidermal growth factor receptor is necessary for mammary ductal development

QUICK SEARCH:

[advanced]

	Author:		Keyword(s):

Home Help Feedback Subscriptions Archive Search Table of Contents

This Article

	Summary
	Full Text (PDF)
	Alert me when this article is cited
	Alert me if a correction is posted

Services

	Email this article to a friend
	Similar articles in this journal
	Similar articles in PubMed
	Alert me to new issues of the journal
	Download to citation manager


Citing Articles

	Citing Articles via HighWire
	Citing Articles via Google Scholar

Google Scholar

	Articles by Wiesen, J. F.
	Articles by Cunha, G. R.
	Search for Related Content

PubMed

	PubMed Citation
	Articles by Wiesen, J. F.
	Articles by Cunha, G. R.

Adler, R. A (1986). The anterior pituitary-grafted rat: A valid model of chronic hyperprolactinemia. Endocr. Rev 7, 302-313.[Medline]

Buhler, T. A., Dale, T. C., Kieback, C., Humphreys, R. C. and Rosen, J. M (1993). Localization and quantification of Wnt-2 gene expression in mouse mammary development. Dev. Biol 155, 87-96.[Medline]

Carraway, K. L. III and Cantley, L. C (1994). A neu acquaintance for erbB3 and erbB4: a role for receptor heterodimerization in growth signaling. Cell 78, 5-8.[Medline]

Coffey, R. J. Jr., Meise, K. S., Matsui, Y., Hogan, B. L., Dempsey, P. J. and Halter, S. A (1994). Acceleration of mammary neoplasia in transforming growth factor alpha transgenic mice by 7, 12-dimethylbenzanthracene. Cancer Res 54, 1678-1683.[Abstract/Free Full Text]

Coleman, S., Silberstein, G. B. and Daniel, C. W (1988). Ductal morphogenesis in the mouse mammary gland: Evidence supporting a role for epidermal growth factor. Dev. Biol 127, 304-315.[Medline]

Coleman, S. and Daniel, C. W (1990). Inhibition of mouse mammary ductalmorphogenesis and down-regulation of the EGF receptor by epidermal growth factor. Dev. Biol 137, 425-433.[Medline]

Cunha, G. R., Young, P., Hamamoto, S., Guzman R. and Nandi, S (1992). Developmental response of adult mammary epithelial cells to various fetal and neonatal mesenchymes. Epithelial Cell Biol 1, 105-118.[Medline]

Daniel, C. W., Silberstein, G. B. and Strickland, P (1987). Direct action of 17-estradiol on mouse mammary ducts analyzed by sustained release implants and steroid autoradiography. Cancer Res 47, 6052-6057.[Abstract/Free Full Text]

DeOme, K. B., Faulkin, L. J. Jr., Bern, H. A. and Blair, P. E (1959). Development of mammary tumors from hyperplastic alveolar nodules transplanted into gland-free mammary fat pads of C3H mice. Cancer Res 19, 515-520.

DiAugustine, R. P., Petrusz, P., Bell, G. I., Brown, C. F., Korach, K. S., McLachlan, J. A. and Teng, C. T (1988). Influence of estrogens on mouse uterine epidermal growth factor precursor protein and messenger ribonucleic acid. Endocrinology 122, 2355-2363.[Abstract]

Earp, H. S., Dawson, T. L., Li, X. and Yu, H (1995). Heterodimerization and functional interaction between EGF receptor family members \320 a new signaling paradigm with implications for breast-cancer research. Breast Cancer Res. Treat 35, 115-132.[Medline]

Fitzpatrick, S. L., Brightwell, J., Wittliff, J., Barrows, G. H. and Schultz, G. S (1984). Epidermal growth factor binding by breast tumor biopsies and relationship to estrogen and progestin receptor levels. Cancer Res 44, 3448-3453.[Abstract/Free Full Text]

Fowler, K. J., Walker, F., Alexander, W., Hibbs, M. L., Nice, E. C., Bohmer, R. M., Mann, G. B., Thumwood, C., Maglitto, R., Danks, J. A., Chetty, R., Burgess, A. W. and Dunn, A. R (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. USA 92, 1465-1469.[Abstract/Free Full Text]

Friedmann, Y. and Daniel, C. W (1996). Regulated expression of homeobox genes Msx-1 and Msx-2 in mouse mammary gland development suggests a role in hormone action and epithelial-stromal interactions. Dev. Biol 177, 347-355.[Medline]

Gavin, B. J. and McMahon, A. P (1992). Differential regulation of the Wnt gene family during pregnancy and lactation suggests a role in postnatal development of the mammary gland. Mol. Cell Biol 12, 2418-2423.[Abstract/Free Full Text]

Halter, S. A., Dempsey, P., Matsui, Y., Stokes, M. K., Graves, D. R., Hogan, B. L. and Coffey, R. J (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 140, 11131-1146.

Haslam, S. Z (1988). Acquisition of estrogen-dependent progesterone receptors by normal mouse mammary gland. Ontogeny of mammary progesterone receptors. J. Steroid Biochem 31, 9-13.[Medline]

Hennighausen, L. and Robinson, G. W (1998). Think globally, act locally: the making of a mouse mammary gland. Genes Dev 12, 449-455.[Free Full Text]

Imagawa, W., Tomooka, Y., Hamamoto, S. and Nandi, S (1985). Stimulation of mammary epithelial cell growth in vitro: Interaction of epidermal growth factor and mammogenic hormones. Endocrinology 116, 1514-1524.[Abstract]

Imagawa, W., Cunha, G. R., Young, P. and Nandi, S (1994). Keratinocyte growth factor and acidic fibroblast growth factor are mitogens for primary cultures of mammary epithelium. Biochem. Biophys. Res. Comm 204, 1165-1169.[Medline]

Jhappan, C., Stahle, C., Harkins, R. N., Fausto, N., Smith G. H. and Merlino, G. T (1990). TGFexpression in transgenic mice induces liverneoplasia and abnormal development of the mammary gland and pancreas. Cell 61, 1137-1146.[Medline]

Kitsberg, D. I. and Leder, P (1996). Keratinocyte growth factor induces mammary and prostatic hyperplasia and mammary adenocarcinoma in transgenic mice. Oncogene 13, 2507-2515.[Medline]

Klijn, J. G. M., Berns, P. M. J. J., Schmitz, P. I. M. and Foekens,J. A (1992). The clinical significance of epidermal growth factor receptor (EGF-R) in human breast cancer: a review of 5232 patients. Endocr. Rev 13, 3-15.[Abstract]

Komurasaki, T., Toyoda, H., Uchida, D. and Morimoto, S (1997). Epiregulin binds to epidermal growth factor receptor and ErbB-4 and induces tyrosine phosphorylation of epidermal growth factor receptor, ErbB-2, ErbB-3, and ErbB-4. Oncogene 15, 2841-2848.[Medline]

Krane, I. M. and Leder, P (1996). NDF/heregulin induces persistence of terminal end buds and adenocarcinomas in the mammary glands of transgenic mice. Oncogene 12, 1781-1788.[Medline]

Luetteke, N. C., Qiu, T. H., Peiffer, R. L., Oliver, P., Smithies, O. and Lee, D. C (1993). TGFdeficiency results in hair follicle and eye abnormalities in targeted and waved-1 mice. Cell 73, 263-278.[Medline]

Luetteke, N. C., Phillips, H. K., Qiu, T. H., Copeland, N. G., Earp H. S., Jenkins, N. J. and Lee, D. C (1993). The mouse waved-2 phenotype results from a point mutation in the EGF receptor kinase. Genes Dev 8, 399-413.[Abstract/Free Full Text]

Lundy, J., Scuss, A., Stanick, D., McCormack, E. S., Kramer, S. and Sorvillo, J. M (1991). Expression of neu protein, EGF, and TGFin breast cancer. Am. J. Pathol 138, 1527-1534.[Abstract]

Lydon, J. P., DeMayo, F. J., Funk, C. R., Mani, S. K., Hughes, A. R., Montgomery C. A. Jr., Shymala, G., Conneely, O. M. and O'Malley, B. W (1995). Mice lacking progesterone receptor exhibit pleiotropic reproductive abnormalities. Genes Dev 9, 2266-2278.[Abstract/Free Full Text]

Matsui, Y., Halter, S. A., Holt, J. T., Hogan, B. L. M., and Coffey, R. J (1990). Development of mammary hyperplasia and neoplasia in MMTV-TGFtransgenic mice. Cell 61, 1147-1155.[Medline]

Miettinen, P. J., Berger, J. E., Meneses, J., Phung, Y., Pedersen, R. A., Werb, Z. and Derynck, R (1995). Epithelial immaturity and multiorgan failure in mice lacking epidermal growth factor receptor. Nature 376, 337-341.[Medline]

Mukku, V. R. and Stancel, G. M (1985). Receptors for epidermal growth factor in the rat uterus. Endocrinol 117, 149-154.[Abstract]

Mukku, V. R. and Stancel, G. M (1985). Regulation of epidermal growth factor receptor by estrogen. J. Biol. Chem 260, 9820-9824.[Abstract/Free Full Text]

Nelson, K. G., Sakai, Y., Eitzman, B., Steed, T. and McLachlan, J (1994). Exposure to diethylstilbesterol during a critical period of the mouse reproductive tract leads to persistent induction of two estrogen-regulated genes. Cell Growth Diff 5, 595-606.[Abstract]

Niranjan, B., Buluwela, L., Yant, J., Perusinghe, N., Atherton, A., Phippard, D., Dale, T., Gusterson, B. and Kamalati, T (1995). HGF/SF: a potent cytokine for mammary growth, morphogenesis and development. Development 121, 2897-2908.[Abstract]

Ormandy, C. J., Camus, A., Barra, J., Damotte, D., Lucas, B., Buteau, H., Edery, M., Brousse, N., Babinet, C., Binart, N. and Kelly, P. A (1997). Null mutation of the prolactin receptor produces multiple reproductive defects in the mouse. Genes Dev 11, 167-178.[Abstract/Free Full Text]

Pavlova, A., Boutin, E., Cunha, G. and Sassoon, D (1994). Msx-1 ( Hox-7.1 ) in the adult mouse uterus: cellular interactions underlying regulation of expression. Development 120, 335-346.[Abstract]

Phippard, D. J., Weber-Hall, S. J., Sharpe, P. T., Naylor, M. S., Jayatalake, H., Maas, R., Woo, I. , Roberts-Clark, D., Francis-West, P. H., Liu, Y. H., Maxson, R., Hill, R. E. and Dale, T. C (1996). Regulation of Msx-1 , Msx-2 , Bmp-2 and Bmp-4 during foetal and postnatal mammary gland development. Development 122, 2729-2737.[Abstract]

Richards, J., Guzman, R., Konrad, M., Yang, J. and Nandi, S (1982). Growth of mammary gland end buds cultured in a collagen gel matrix. Exp. Cell Res 141, 433-443.[Medline]

Robinson, G. W. and Hennighausen, L (1997). Inhibins and activinsregulate mammary epithelial cell differentiation through mesenchymal-epithelial interactions. Development 124, 2701-2708.[Abstract]

Sainsbury, J. R. C., Farndon, J. R., Sherbert, G. V. and Harris, A. L (1985). Epidermal growth factor receptors and oestrogen receptors in human breast cancers. Lancet 1, 364-366.[Medline]

Sakai, Y., Nelson, K. G., Snedeker, S., Bossert, N. L., Walker, M. P., McLachlan, J. and DiAugustine, R. P (1994). Expression of epidermal growth factor in suprabasal cells of stratified squamous epithelia: implication for a role in differentiation. Cell Growth Diff 5, 527-535.[Abstract]

Sandgren, E. P., Luetteke, N. C., Palmiter, R. D., Brinster, R. L. and Lee, D. C (1990). Overexpression of TGFin transgenic mice: Induction of epithelial hyperplasia, pancreatic metaplasia, and carcinoma of the breast. Cell 61, 1121-1135.[Medline]

Snedeker, S. M., Brown, C. F. and DiAugustine, R. P (1992). Expression and functional properties of transforming growth factor a and epidermal growth factor during mouse mammary gland ductal morphogenesis. Proc. Natl. Acad. Sci. USA 88, 276-280.[Abstract/Free Full Text]

Soriano, J. V., Pepper, M. S., Nakamura, T., Orci, L. and Montesano R., (1995). Hepatocyte growth factor stimulates extensive development of branching duct-like structures by cloned mammary epithelial cells. J. Cell Sci 108, 413-430.[Abstract]

Sympson, C. J., Talhouk, R. S., Alexander, C. M., Chin, J. R., Clift, S. M., Bissell, M. J. and Werb,Z (1994). Targeted expression of stromelysin-1 in mammary gland provides evidence for a role of proteinases in branching morphogenesis and the requirement for an intact basement membrane for tissue-specific gene expression. J. Cell Biol._Fb_125 , 681-693. Published correction appears in. J. Cell Biol 132, 753-.

Taketani, Y. and Oka, T (1983). Epidermal growth factor stimulates cell proliferation and inhibits functional differentiation of mouse mammary epithelial cells in culture. Endocrinology 113, 871-877.[Abstract]

Ulich, T. R., Yi, E. S., Cardiff, R., Yin, S., Bikhazi, N., Biltz, R., Morris, C. F. and Pierce, G. F (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 144, 862-868.[Abstract]

Vonderhaar, B. K (1987). Local effects of EGF, alpha-TGF, and EGF-likegrowth factors on lobuloalveolar development of the mouse mammary gland in vivo. J. Cell Physiol 132, 581-584.[Medline]

Wappner, P., Gabay, L. and Shilo, B (1997). Interactions between the EGF receptor and DPP pathways establish distinct cell fates in the tracheal placodes. Development 124, 4707-4716.[Abstract]

Weber-Hall, S. J., Phippard, D. J., Niemeyer, C. C. and Dale, T. C (1994). Developmental and hormonal regulation of Wnt gene expression in the mouse mammary gland. Differentiation 57, 205-214.[Medline]

Weizs\212cker, F. V., Labeit, S., Koch, H. K., Oehlert, W., Gerok, W. and Blum, H. E (1991). A simple and rapid method for the detection of RNA in formalin-fixed, paraffin-embedded tissues by PCR amplification. Biochem. Biophys. Res. Comm 174, 176-180.[Medline]

Werb, Z., Ashkenas, J., MacAuley, A. and Wiesen, J. F (1996). Extracellular matrix remodeling as a regulator of stromal-epithelial interactions during mammary gland development, involution, and carcinogenesis. Braz. J. Med. Biol. Res 29, 1087-1097.[Medline]

Wiesen, J. F. and Werb, Z (1996). The role of stromelysin-1 and epithelial-stromal interactions in cancer. Enzyme Protein 49, 174-181.[Medline]

Wysolmerski, J., Philbrick, W., Dunbar, M., Lanske, B., Kronenberg H. and Broadus, A (1998). Rescue of the parathyroid hormone-related protein knockout mouse demonstrates that parathyroid hormone-related protein is essential for mammary gland development. Development 125, 1285-1294.[Abstract]

Xie, W, Paterson, A. J., Chin, E., Nabell, L. M. and Kudlow, J. E (1997). Targeted expression of a dominant negative epidermal growth factor receptor in the mammary gland of transgenic mice inhibits pubertal mammary duct development. Mol. Endocrinol 11, 766-1781.

Yang, Y., Spitzer, E., Meyer, D., Sachs, M., Niemann, C., Hartmann, G., Weidner, K. M., Birchmeier, C. and Birchmeier, W (1995). Sequential requirement of hepatocyte growth factor and neuregulin in the morphogenesis and differentiation of the mammary gland. J. Cell Biol 131, 215-226.[Abstract/Free Full Text]

Yi, E. S., Bedoya, A. A., Lee, H., Kim, S., Housley, R. M., Aukerman, S. L., Tarpley, J. E., Starnes, C., Yin, S. and Pierce, G. F (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. Path 145, 11015-1022.

This article has been cited by other articles:

C.-P. Chuu, R.-Y. Chen, J. L. Barkinge, M. F. Ciaccio, and R. B. Jones
Systems-Level Analysis of ErbB4 Signaling in Breast Cancer: A Laboratory to Clinical Perspective
Mol. Cancer Res., June 1, 2008; 6(6): 885 - 891.
[Abstract] [Full Text] [PDF]

K. Britt, A. Ashworth, and M. Smalley
Pregnancy and the risk of breast cancer
Endocr. Relat. Cancer, December 1, 2007; 14(4): 907 - 933.
[Abstract] [Full Text] [PDF]

N. Heldring, A. Pike, S. Andersson, J. Matthews, G. Cheng, J. Hartman, M. Tujague, A. Strom, E. Treuter, M. Warner, et al.
Estrogen Receptors: How Do They Signal and What Are Their Targets
Physiol Rev, July 1, 2007; 87(3): 905 - 931.
[Abstract] [Full Text] [PDF]

L. Ciarloni, S. Mallepell, and C. Brisken
Amphiregulin is an essential mediator of estrogen receptor {alpha} function in mammary gland development
PNAS, March 27, 2007; 104(13): 5455 - 5460.
[Abstract] [Full Text] [PDF]

S. Mallepell, A.�e Krust, P. Chambon, and C. Brisken
Paracrine signaling through the epithelial estrogen receptor {alpha} is required for proliferation and morphogenesis in the mammary gland
PNAS, February 14, 2006; 103(7): 2196 - 2201.
[Abstract] [Full Text] [PDF]

R Serra and M R Crowley
Mouse models of transforming growth factor {beta} impact in breast development and cancer
Endocr. Relat. Cancer, December 1, 2005; 12(4): 749 - 760.
[Abstract] [Full Text] [PDF]

M. D. Sternlicht, S. W. Sunnarborg, H. Kouros-Mehr, Y. Yu, D. C. Lee, and Z. Werb
Mammary ductal morphogenesis requires paracrine activation of stromal EGFR via ADAM17-dependent shedding of epithelial amphiregulin
Development, September 1, 2005; 132(17): 3923 - 3933.
[Abstract] [Full Text] [PDF]

B. G. Timms, K. L. Howdeshell, L. Barton, S. Bradley, C. A. Richter, and F. S. vom Saal
Estrogenic chemicals in plastic and oral contraceptives disrupt development of the fetal mouse prostate and urethra
PNAS, May 10, 2005; 102(19): 7014 - 7019.
[Abstract] [Full Text] [PDF]

A. J. Jackson-Fisher, G. Bellinger, R. Ramabhadran, J. K. Morris, K.-F. Lee, and D. F. Stern
ErbB2 is required for ductal morphogenesis of the mammary gland
PNAS, December 7, 2004; 101(49): 17138 - 17143.
[Abstract] [Full Text] [PDF]

H. Parmar and G. R Cunha
Epithelial-stromal interactions in the mouse and human mammary gland in vivo
Endocr. Relat. Cancer, September 1, 2004; 11(3): 437 - 458.
[Abstract] [Full Text] [PDF]

S. Cases, P. Zhou, J. M. Shillingford, B. S. Wiseman, J. D. Fish, C. S. Angle, L. Hennighausen, Z. Werb, and R. V. Farese Jr
Development of the mammary gland requires DGAT1 expression in stromal and epithelial tissues
Development, July 1, 2004; 131(13): 3047 - 3055.
[Abstract] [Full Text] [PDF]

C. L. Hinkle, S. W. Sunnarborg, D. Loiselle, C. E. Parker, M. Stevenson, W. E. Russell, and D. C. Lee
Selective Roles for Tumor Necrosis Factor {alpha}-converting Enzyme/ADAM17 in the Shedding of the Epidermal Growth Factor Receptor Ligand Family: THE JUXTAMEMBRANE STALK DETERMINES CLEAVAGE EFFICIENCY
J. Biol. Chem., June 4, 2004; 279(23): 24179 - 24188.
[Abstract] [Full Text] [PDF]

B. A. Vorderstrasse, S. E. Fenton, A. A. Bohn, J. A. Cundiff, and B. P. Lawrence
A Novel Effect of Dioxin: Exposure during Pregnancy Severely Impairs Mammary Gland Differentiation
Toxicol. Sci., April 1, 2004; 78(2): 248 - 257.
[Abstract] [Full Text] [PDF]

R. X. Song, C. J. Barnes, Z. Zhang, Y. Bao, R. Kumar, and R. J. Santen
The role of Shc and insulin-like growth factor 1 receptor in mediating the translocation of estrogen receptor {alpha} to the plasma membrane
PNAS, February 17, 2004; 101(7): 2076 - 2081.
[Abstract] [Full Text] [PDF]

K. P. Tan, J. Chen, W. E. Ward, and L. U. Thompson
Mammary Gland Morphogenesis Is Enhanced by Exposure to Flaxseed or Its Major Lignan During Suckling in Rats
Experimental Biology and Medicine, February 1, 2004; 229(2): 147 - 157.
[Abstract] [Full Text] [PDF]

H. Parmar, P. Young, J. T. Emerman, R. M. Neve, S. Dairkee, and G. R. Cunha
A Novel Method for Growing Human Breast Epithelium in Vivo Using Mouse and Human Mammary Fibroblasts
Endocrinology, December 1, 2002; 143(12): 4886 - 4896.
[Abstract] [Full Text] [PDF]

M.-A. Deugnier, M. M. Faraldo, B. Janji, P. Rousselle, J. P. Thiery, and M. A. Glukhova
EGF controls the in vivo developmental potential of a mammary epithelial cell line possessing progenitor properties
J. Cell Biol., November 7, 2002; 159(3): 453 - 463.
[Abstract] [Full Text] [PDF]

L. Lamorte, S. Rodrigues, M. Naujokas, and M. Park
Crk Synergizes with Epidermal Growth Factor for Epithelial Invasion and Morphogenesis and Is Required for the Met Morphogenic Program
J. Biol. Chem., September 27, 2002; 277(40): 37904 - 37911.
[Abstract] [Full Text] [PDF]

A. P. Gilmore, A. J. Valentijn, P. Wang, A. M. Ranger, N. Bundred, M. J. O'Hare, A. Wakeling, S. J. Korsmeyer, and C. H. Streuli
Activation of BAD by Therapeutic Inhibition of Epidermal Growth Factor Receptor and Transactivation by Insulin-like Growth Factor Receptor
J. Biol. Chem., July 26, 2002; 277(31): 27643 - 27650.
[Abstract] [Full Text] [PDF]

S. O. Mueller, J. A. Clark, P. H. Myers, and K. S. Korach
Mammary Gland Development in Adult Mice Requires Epithelial and Stromal Estrogen Receptor {alpha}
Endocrinology, June 1, 2002; 143(6): 2357 - 2365.
[Abstract] [Full Text] [PDF]

M. A. Stull, M. M. Richert, A. V. Loladze, and T. L. Wood
Requirement for IGF-I in Epidermal Growth Factor-Mediated Cell Cycle Progression of Mammary Epithelial Cells
Endocrinology, May 1, 2002; 143(5): 1872 - 1879.
[Abstract] [Full Text] [PDF]

R. B. Roberts, L. Min, M. K. Washington, S. J. Olsen, S. H. Settle, R. J. Coffey, and D. W. Threadgill
Importance of epidermal growth factor receptor signaling in establishment of adenomas and maintenance of carcinomas during intestinal tumorigenesis
PNAS, January 24, 2002; (2002) 32678499.
[Abstract] [Full Text] [PDF]

E. V. Jensen, G. Cheng, C. Palmieri, S. Saji, S. Makela, S. Van Noorden, T. Wahlstrom, M. Warner, R. C. Coombes, and J.-A. Gustafsson
Estrogen receptors and proliferation markers in primary and recurrent breast cancer
PNAS, November 29, 2001; (2001) 211556298.
[Abstract] [Full Text] [PDF]

S. Nilsson, S. Makela, E. Treuter, M. Tujague, J. Thomsen, G. Andersson, E. Enmark, K. Pettersson, M. Warner, and J.-A. Gustafsson
Mechanisms of Estrogen Action
Physiol Rev, October 1, 2001; 81(4): 1535 - 1565.
[Abstract] [Full Text] [PDF]

M. Simian, Y. Hirai, M. Navre, Z. Werb, A. Lochter, and M. J. Bissell
The interplay of matrix metalloproteinases, morphogens and growth factors is necessary for branching of mammary epithelial cells
Development, August 15, 2001; 128(16): 3117 - 3131.
[Abstract] [Full Text] [PDF]

Y. Hirai, D. Radisky, R. Boudreau, M. Simian, M. E. Stevens, Y. Oka, K. Takebe, S. Niwa, and M. J. Bissell
Epimorphin Mediates Mammary Luminal Morphogenesis through Control of C/EBP{beta}
J. Cell Biol., May 14, 2001; 153(4): 785 - 794.
[Abstract] [Full Text] [PDF]

P. Miettinen, M Huotari, T Koivisto, J Ustinov, J Palgi, S Rasilainen, E Lehtonen, J Keski-Oja, and T Otonkoski
Impaired migration and delayed differentiation of pancreatic islet cells in mice lacking EGF-receptors
Development, January 6, 2000; 127(12): 2617 - 2627.
[Abstract] [PDF]

S. Saji, E. V. Jensen, S. Nilsson, T. Rylander, M. Warner, and J.-A. Gustafsson
Estrogen receptors alpha and beta in the rodent mammary gland
PNAS, January 4, 2000; 97(1): 337 - 342.
[Abstract] [Full Text] [PDF]

F. E. Jones, T. Welte, X.-Y. Fu, and D. F. Stern
ErbB4 Signaling in the Mammary Gland Is Required for Lobuloalveolar Development and Stat5 Activation during Lactation
J. Cell Biol., October 4, 1999; 147(1): 77 - 88.
[Abstract] [Full Text] [PDF]

R. C. Humphreys and L. Hennighausen
Signal Transducer and Activator of Transcription 5a Influences Mammary Epithelial Cell Survival and Tumorigenesis
Cell Growth Differ., October 1, 1999; 10(10): 685 - 694.
[Abstract] [Full Text]

N. Luetteke, T. Qiu, S. Fenton, K. Troyer, R. Riedel, A Chang, and D. Lee
Targeted inactivation of the EGF and amphiregulin genes reveals distinct roles for EGF receptor ligands in mouse mammary gland development
Development, January 6, 1999; 126(12): 2739 - 2750.
[Abstract] [PDF]

R. B. Roberts, L. Min, M. K. Washington, S. J. Olsen, S. H. Settle, R. J. Coffey, and D. W. Threadgill
Importance of epidermal growth factor receptor signaling in establishment of adenomas and maintenance of carcinomas during intestinal tumorigenesis
PNAS, February 5, 2002; 99(3): 1521 - 1526.
[Abstract] [Full Text] [PDF]

E. V. Jensen, G. Cheng, C. Palmieri, S. Saji, S. Makela, S. Van Noorden, T. Wahlstrom, M. Warner, R. C. Coombes, and J.-A. Gustafsson
Estrogen receptors and proliferation markers in primary and recurrent breast cancer
PNAS, December 18, 2001; 98(26): 15197 - 15202.
[Abstract] [Full Text] [PDF]

This Article

Summary

Full Text (PDF)

Alert me when this article is cited

Alert me if a correction is posted

Services

Email this article to a friend

Similar articles in this journal

Similar articles in PubMed

Alert me to new issues of the journal

Download to citation manager

Citing Articles

Citing Articles via HighWire

Citing Articles via Google Scholar

Google Scholar

Articles by Wiesen, J. F.

Articles by Cunha, G. R.

Search for Related Content

PubMed

PubMed Citation

Articles by Wiesen, J. F.

Articles by Cunha, G. R.

				K. Britt, A. Ashworth, and M. Smalley Pregnancy and the risk of breast cancer Endocr. Relat. Cancer, December 1, 2007; 14(4): 907 - 933. [Abstract] [Full Text] [PDF]

				N. Heldring, A. Pike, S. Andersson, J. Matthews, G. Cheng, J. Hartman, M. Tujague, A. Strom, E. Treuter, M. Warner, et al. Estrogen Receptors: How Do They Signal and What Are Their Targets Physiol Rev, July 1, 2007; 87(3): 905 - 931. [Abstract] [Full Text] [PDF]

				L. Ciarloni, S. Mallepell, and C. Brisken Amphiregulin is an essential mediator of estrogen receptor {alpha} function in mammary gland development PNAS, March 27, 2007; 104(13): 5455 - 5460. [Abstract] [Full Text] [PDF]

				S. Mallepell, A.�e Krust, P. Chambon, and C. Brisken Paracrine signaling through the epithelial estrogen receptor {alpha} is required for proliferation and morphogenesis in the mammary gland PNAS, February 14, 2006; 103(7): 2196 - 2201. [Abstract] [Full Text] [PDF]

				R Serra and M R Crowley Mouse models of transforming growth factor {beta} impact in breast development and cancer Endocr. Relat. Cancer, December 1, 2005; 12(4): 749 - 760. [Abstract] [Full Text] [PDF]

				M. D. Sternlicht, S. W. Sunnarborg, H. Kouros-Mehr, Y. Yu, D. C. Lee, and Z. Werb Mammary ductal morphogenesis requires paracrine activation of stromal EGFR via ADAM17-dependent shedding of epithelial amphiregulin Development, September 1, 2005; 132(17): 3923 - 3933. [Abstract] [Full Text] [PDF]

				B. G. Timms, K. L. Howdeshell, L. Barton, S. Bradley, C. A. Richter, and F. S. vom Saal Estrogenic chemicals in plastic and oral contraceptives disrupt development of the fetal mouse prostate and urethra PNAS, May 10, 2005; 102(19): 7014 - 7019. [Abstract] [Full Text] [PDF]

				A. J. Jackson-Fisher, G. Bellinger, R. Ramabhadran, J. K. Morris, K.-F. Lee, and D. F. Stern ErbB2 is required for ductal morphogenesis of the mammary gland PNAS, December 7, 2004; 101(49): 17138 - 17143. [Abstract] [Full Text] [PDF]

				H. Parmar and G. R Cunha Epithelial-stromal interactions in the mouse and human mammary gland in vivo Endocr. Relat. Cancer, September 1, 2004; 11(3): 437 - 458. [Abstract] [Full Text] [PDF]

				S. Cases, P. Zhou, J. M. Shillingford, B. S. Wiseman, J. D. Fish, C. S. Angle, L. Hennighausen, Z. Werb, and R. V. Farese Jr Development of the mammary gland requires DGAT1 expression in stromal and epithelial tissues Development, July 1, 2004; 131(13): 3047 - 3055. [Abstract] [Full Text] [PDF]

				C. L. Hinkle, S. W. Sunnarborg, D. Loiselle, C. E. Parker, M. Stevenson, W. E. Russell, and D. C. Lee Selective Roles for Tumor Necrosis Factor {alpha}-converting Enzyme/ADAM17 in the Shedding of the Epidermal Growth Factor Receptor Ligand Family: THE JUXTAMEMBRANE STALK DETERMINES CLEAVAGE EFFICIENCY J. Biol. Chem., June 4, 2004; 279(23): 24179 - 24188. [Abstract] [Full Text] [PDF]

				B. A. Vorderstrasse, S. E. Fenton, A. A. Bohn, J. A. Cundiff, and B. P. Lawrence A Novel Effect of Dioxin: Exposure during Pregnancy Severely Impairs Mammary Gland Differentiation Toxicol. Sci., April 1, 2004; 78(2): 248 - 257. [Abstract] [Full Text] [PDF]

				R. X. Song, C. J. Barnes, Z. Zhang, Y. Bao, R. Kumar, and R. J. Santen The role of Shc and insulin-like growth factor 1 receptor in mediating the translocation of estrogen receptor {alpha} to the plasma membrane PNAS, February 17, 2004; 101(7): 2076 - 2081. [Abstract] [Full Text] [PDF]

				K. P. Tan, J. Chen, W. E. Ward, and L. U. Thompson Mammary Gland Morphogenesis Is Enhanced by Exposure to Flaxseed or Its Major Lignan During Suckling in Rats Experimental Biology and Medicine, February 1, 2004; 229(2): 147 - 157. [Abstract] [Full Text] [PDF]

				H. Parmar, P. Young, J. T. Emerman, R. M. Neve, S. Dairkee, and G. R. Cunha A Novel Method for Growing Human Breast Epithelium in Vivo Using Mouse and Human Mammary Fibroblasts Endocrinology, December 1, 2002; 143(12): 4886 - 4896. [Abstract] [Full Text] [PDF]

				M.-A. Deugnier, M. M. Faraldo, B. Janji, P. Rousselle, J. P. Thiery, and M. A. Glukhova EGF controls the in vivo developmental potential of a mammary epithelial cell line possessing progenitor properties J. Cell Biol., November 7, 2002; 159(3): 453 - 463. [Abstract] [Full Text] [PDF]

				L. Lamorte, S. Rodrigues, M. Naujokas, and M. Park Crk Synergizes with Epidermal Growth Factor for Epithelial Invasion and Morphogenesis and Is Required for the Met Morphogenic Program J. Biol. Chem., September 27, 2002; 277(40): 37904 - 37911. [Abstract] [Full Text] [PDF]

				A. P. Gilmore, A. J. Valentijn, P. Wang, A. M. Ranger, N. Bundred, M. J. O'Hare, A. Wakeling, S. J. Korsmeyer, and C. H. Streuli Activation of BAD by Therapeutic Inhibition of Epidermal Growth Factor Receptor and Transactivation by Insulin-like Growth Factor Receptor J. Biol. Chem., July 26, 2002; 277(31): 27643 - 27650. [Abstract] [Full Text] [PDF]

				S. O. Mueller, J. A. Clark, P. H. Myers, and K. S. Korach Mammary Gland Development in Adult Mice Requires Epithelial and Stromal Estrogen Receptor {alpha} Endocrinology, June 1, 2002; 143(6): 2357 - 2365. [Abstract] [Full Text] [PDF]

				M. A. Stull, M. M. Richert, A. V. Loladze, and T. L. Wood Requirement for IGF-I in Epidermal Growth Factor-Mediated Cell Cycle Progression of Mammary Epithelial Cells Endocrinology, May 1, 2002; 143(5): 1872 - 1879. [Abstract] [Full Text] [PDF]

				R. B. Roberts, L. Min, M. K. Washington, S. J. Olsen, S. H. Settle, R. J. Coffey, and D. W. Threadgill Importance of epidermal growth factor receptor signaling in establishment of adenomas and maintenance of carcinomas during intestinal tumorigenesis PNAS, January 24, 2002; (2002) 32678499. [Abstract] [Full Text] [PDF]

				E. V. Jensen, G. Cheng, C. Palmieri, S. Saji, S. Makela, S. Van Noorden, T. Wahlstrom, M. Warner, R. C. Coombes, and J.-A. Gustafsson Estrogen receptors and proliferation markers in primary and recurrent breast cancer PNAS, November 29, 2001; (2001) 211556298. [Abstract] [Full Text] [PDF]

				S. Nilsson, S. Makela, E. Treuter, M. Tujague, J. Thomsen, G. Andersson, E. Enmark, K. Pettersson, M. Warner, and J.-A. Gustafsson Mechanisms of Estrogen Action Physiol Rev, October 1, 2001; 81(4): 1535 - 1565. [Abstract] [Full Text] [PDF]

				M. Simian, Y. Hirai, M. Navre, Z. Werb, A. Lochter, and M. J. Bissell The interplay of matrix metalloproteinases, morphogens and growth factors is necessary for branching of mammary epithelial cells Development, August 15, 2001; 128(16): 3117 - 3131. [Abstract] [Full Text] [PDF]

				Y. Hirai, D. Radisky, R. Boudreau, M. Simian, M. E. Stevens, Y. Oka, K. Takebe, S. Niwa, and M. J. Bissell Epimorphin Mediates Mammary Luminal Morphogenesis through Control of C/EBP{beta} J. Cell Biol., May 14, 2001; 153(4): 785 - 794. [Abstract] [Full Text] [PDF]

				P. Miettinen, M Huotari, T Koivisto, J Ustinov, J Palgi, S Rasilainen, E Lehtonen, J Keski-Oja, and T Otonkoski Impaired migration and delayed differentiation of pancreatic islet cells in mice lacking EGF-receptors Development, January 6, 2000; 127(12): 2617 - 2627. [Abstract] [PDF]

				S. Saji, E. V. Jensen, S. Nilsson, T. Rylander, M. Warner, and J.-A. Gustafsson Estrogen receptors alpha and beta in the rodent mammary gland PNAS, January 4, 2000; 97(1): 337 - 342. [Abstract] [Full Text] [PDF]

				F. E. Jones, T. Welte, X.-Y. Fu, and D. F. Stern ErbB4 Signaling in the Mammary Gland Is Required for Lobuloalveolar Development and Stat5 Activation during Lactation J. Cell Biol., October 4, 1999; 147(1): 77 - 88. [Abstract] [Full Text] [PDF]

				R. C. Humphreys and L. Hennighausen Signal Transducer and Activator of Transcription 5a Influences Mammary Epithelial Cell Survival and Tumorigenesis Cell Growth Differ., October 1, 1999; 10(10): 685 - 694. [Abstract] [Full Text]

				N. Luetteke, T. Qiu, S. Fenton, K. Troyer, R. Riedel, A Chang, and D. Lee Targeted inactivation of the EGF and amphiregulin genes reveals distinct roles for EGF receptor ligands in mouse mammary gland development Development, January 6, 1999; 126(12): 2739 - 2750. [Abstract] [PDF]