Prolactin as a Chemoattractant for Human Breast Carcinoma

doi:10.1210/en.140.11.5447

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Prolactin as a Chemoattractant for Human Breast Carcinoma

Marcela V. Maus, Sean C. Reilly and Charles V. Clevenger

Department of Pathology and Laboratory Medicine, University of Pennsylvania Medical Center, Philadelphia, Pennsylvania 19104

Address all correspondence and requests for reprints to: Charles Clevenger, University of Pennsylvania, Department of Pathology/Lab Medicine, 422 Curie Boulevard, 509 Stellar-Chance Labs, Philadelphia, Pennsylvania 19104.

Abstract

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Abstract

ABSTRACT.

Prolactin (PRL) is recognized as a growth and differentiatinghormone in the human breast. These effects are mediated by thePRL receptor (PRLr); when stimulated the PRL-PRLr complex activatesseveral signaling cascades, including those involving the GTP-bindingproteins Ras and Rac. The activation of these signaling pathwayshas been associated with cytoskeletal alterations and increasedcellular motility. We hypothesized that such changes could occurin PRL-stimulated human breast cancer cells. To test this hypothesis, complementarystudies, including wound closure, time-lapse video microscopy(TLVM), and Boyden chamber assay were performed. These studiesrevealed that PRL significantly enhanced the migration of the breastcancer cell lines T47D, MCF7, and MDA231. Co-stimulation with PRLwas noted to potentiate epidermal growth factor (EGF)-inducedcell motility. If microscopy of filamentous actin using rhodamine-conjugated phalloidinrevealed a significant and rapid generation of both membrane rufflingand stress fibers in response to PRL, an effect inhibited by thephosphatidylinositol 3-kinase (PI3K) inhibitor LY294002. Insum, these data reveal that PRL stimulation modulates the cytoskeletonand induces the motility of human breast cancer cells in vitro, eventsthat have been associated with the progression of mammary carcinomain vivo. Given the recently delineated autocrine-paracrine rolefor PRL in human breast cancer, these findings could be of appreciableclinical significance.

Received July 21, 1999.

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Endocrinology	Endocrine Reviews	J. Clin. End. & Metab.
Molecular Endocrinology	Recent Prog. Horm. Res.	All Endocrine Journals

				V. V. Levina, B. Nolen, Y. Su, A. K. Godwin, D. Fishman, J. Liu, G. Mor, L. G. Maxwell, R. B. Herberman, M. J. Szczepanski, et al. Biological Significance of Prolactin in Gynecologic Cancers Cancer Res., June 15, 2009; 69(12): 5226 - 5233. [Abstract] [Full Text] [PDF]

				F. Fang, M. A. Rycyzyn, and C. V. Clevenger Role of c-Myb during Prolactin-Induced Signal Transducer and Activator of Transcription 5a Signaling in Breast Cancer Cells Endocrinology, April 1, 2009; 150(4): 1597 - 1606. [Abstract] [Full Text] [PDF]

				R. S. Muraoka-Cook, M. Sandahl, D. Hunter, L. Miraglia, and H. S. Earp III Prolactin and ErbB4/HER4 Signaling Interact via Janus Kinase 2 to Induce Mammary Epithelial Cell Gene Expression Differentiation Mol. Endocrinol., October 1, 2008; 22(10): 2307 - 2321. [Abstract] [Full Text] [PDF]

				K. C. Carver and L. A. Schuler Prolactin Does Not Require Insulin-Like Growth Factor Intermediates but Synergizes with Insulin-Like Growth Factor I in Human Breast Cancer Cells Mol. Cancer Res., April 1, 2008; 6(4): 634 - 643. [Abstract] [Full Text] [PDF]

				N. Ben-Jonathan, C. R. LaPensee, and E. W. LaPensee What Can We Learn from Rodents about Prolactin in Humans? Endocr. Rev., February 1, 2008; 29(1): 1 - 41. [Abstract] [Full Text] [PDF]

				L. M. Neilson, J. Zhu, J. Xie, M. G. Malabarba, K. Sakamoto, K.-U. Wagner, R. A. Kirken, and H. Rui Coactivation of Janus Tyrosine Kinase (Jak)1 Positively Modulates Prolactin-Jak2 Signaling in Breast Cancer: Recruitment of ERK and Signal Transducer and Activator of Transcription (Stat)3 and Enhancement of Akt and Stat5a/b Pathways Mol. Endocrinol., September 1, 2007; 21(9): 2218 - 2232. [Abstract] [Full Text] [PDF]

				S. S. Tworoger, A. H. Eliassen, P. Sluss, and S. E. Hankinson A Prospective Study of Plasma Prolactin Concentrations and Risk of Premenopausal and Postmenopausal Breast Cancer J. Clin. Oncol., April 20, 2007; 25(12): 1482 - 1488. [Abstract] [Full Text] [PDF]

				N. Polgar, B. Fogelgren, J. M. Shipley, and K. Csiszar Lysyl Oxidase Interacts with Hormone Placental Lactogen and Synergistically Promotes Breast Epithelial Cell Proliferation and Migration J. Biol. Chem., February 2, 2007; 282(5): 3262 - 3272. [Abstract] [Full Text] [PDF]

				J. M. Faupel-Badger, S. A. Prindiville, D. Venzon, B. K. Vonderhaar, J. A. Zujewski, and J. Eng-Wong Effects of raloxifene on circulating prolactin and estradiol levels in premenopausal women at high risk for developing breast cancer. Cancer Epidemiol. Biomarkers Prev., June 1, 2006; 15(6): 1153 - 1158. [Abstract] [Full Text] [PDF]

				F E Utama, M J LeBaron, L M Neilson, A S Sultan, A F Parlow, K-U Wagner, and H Rui Human prolactin receptors are insensitive to mouse prolactin: implications for xenotransplant modeling of human breast cancer in mice. J. Endocrinol., March 1, 2006; 188(3): 589 - 601. [Abstract] [Full Text] [PDF]

				S. S. Tworoger, P. Sluss, and S. E. Hankinson Association between Plasma Prolactin Concentrations and Risk of Breast Cancer among Predominately Premenopausal Women Cancer Res., February 15, 2006; 66(4): 2476 - 2482. [Abstract] [Full Text] [PDF]

				V. Goffin, S. Bernichtein, P. Touraine, and P. A. Kelly Development and Potential Clinical Uses of Human Prolactin Receptor Antagonists Endocr. Rev., May 1, 2005; 26(3): 400 - 422. [Abstract] [Full Text] [PDF]

				S. L. Miller, J. E. DeMaria, D. O. Freier, A. M. Riegel, and C. V. Clevenger Novel Association of Vav2 and Nek3 Modulates Signaling through the Human Prolactin Receptor Mol. Endocrinol., April 1, 2005; 19(4): 939 - 949. [Abstract] [Full Text] [PDF]

				K. A. B. Knostman, J.-Y. Cho, K.-Y. Ryu, X. Lin, J. A. McCubrey, T. Hla, C. H. Liu, E. Di Carlo, R. Keri, M. Zhang, et al. Signaling through 3',5'-Cyclic Adenosine Monophosphate and Phosphoinositide-3 Kinase Induces Sodium/Iodide Symporter Expression in Breast Cancer J. Clin. Endocrinol. Metab., October 1, 2004; 89(10): 5196 - 5203. [Abstract] [Full Text] [PDF]

				S. S. Tworoger, A. H. Eliassen, B. Rosner, P. Sluss, and S. E. Hankinson Plasma Prolactin Concentrations and Risk of Postmenopausal Breast Cancer Cancer Res., September 15, 2004; 64(18): 6814 - 6819. [Abstract] [Full Text] [PDF]

				J. J. Acosta, R. M. Munoz, L. Gonzalez, A. Subtil-Rodriguez, M. A. Dominguez-Caceres, J. M. Garcia-Martinez, A. Calcabrini, I. Lazaro-Trueba, and J. Martin-Perez Src Mediates Prolactin-Dependent Proliferation of T47D and MCF7 Cells via the Activation of Focal Adhesion Kinase/Erk1/2 and Phosphatidylinositol 3-Kinase Pathways Mol. Endocrinol., November 1, 2003; 17(11): 2268 - 2282. [Abstract] [Full Text] [PDF]

				C. V. Clevenger, P. A. Furth, S. E. Hankinson, and L. A. Schuler The Role of Prolactin in Mammary Carcinoma Endocr. Rev., February 1, 2003; 24(1): 1 - 27. [Abstract] [Full Text] [PDF]

				F. Bertucci, V. Nasser, S. Granjeaud, F. Eisinger, J. Adelaide, R. Tagett, B. Loriod, A. Giaconia, A. Benziane, E. Devilard, et al. Gene expression profiles of poor-prognosis primary breast cancer correlate with survival Hum. Mol. Genet., April 15, 2002; 11(8): 863 - 872. [Abstract] [Full Text] [PDF]

				T. J. Ahonen, P. L. Harkonen, H. Rui, and M. T. Nevalainen PRL Signal Transduction in the Epithelial Compartment of Rat Prostate Maintained as Long-Term Organ Cultures in Vitro Endocrinology, January 1, 2002; 143(1): 228 - 238. [Abstract] [Full Text] [PDF]

				C V Clevenger and J B Kline Prolactin receptor signal transduction Lupus, October 1, 2001; 10(10): 706 - 718. [Abstract] [PDF]

				J. B. Kline, D. J. Moore, and C. V. Clevenger Activation and Association of the Tec Tyrosine Kinase with the Human Prolactin Receptor: Mapping of a Tec/Vav1-Receptor Binding Site Mol. Endocrinol., May 1, 2001; 15(5): 832 - 841. [Abstract] [Full Text]