Human Prolactin Receptor Variants in Breast Cancer: Low Ratio of Short Forms to the Long-Form Human Prolactin Receptor Associated with Mammary Carcinoma

doi:10.1158/0008-5472.CAN-04-1019

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Human Prolactin Receptor Variants in Breast Cancer

Low Ratio of Short Forms to the Long-Form Human Prolactin Receptor Associated with Mammary Carcinoma

Jianping Meng, Chon-Hwa Tsai-Morris and Maria L. Dufau

Section on Molecular Endocrinology, Endocrinology, and Reproduction Research Branch, National Institute of Child Health and Human Development, NIH, Bethesda, Maryland

Prolactin plays an essential role in the development of rodentmammary tumors and is a potent mitogen in human normal and cancerousbreast tissues/cells. In this study, we have analyzed the expressionof prolactin receptors, including the long receptor form (LF;stimulatory) and two novel short forms (SFs; S1a and S1b) derivedfrom alternative splicing that are inhibitory of the activationinduced by prolactin through the LF. Southern analysis of breastcancer profiling arrays revealed that 29 patients (group I)expressed an elevated LF, 10 patients (group II) showed decreasedLF, and 8 patients (group III) had no change relative to theadjacent normal tissue. Their respective SF expression was increasedin 21 patients of group I and generally decreased in groupsII and III. However, the ratio of SF to LF was significantlydecreased in 76% of the breast tumors and distributed evenlyamong the groups. Quantification of differential expressionof prolactin receptor variants by real-time PCR in 15 pairsof human normal and tumor breast-matched tissues revealed asimilar significant decrease in the ratio of SF to LF in thetumor tissue. Consistent lower ratio of SFs to LFs was confirmedin 8 of ten different breast cancer cell lines compared withnormal mammary Hs578Bst and MCF10A cells. Because SFs act asdominant negative regulators of the stimulatory actions of theLF in vitro, their relatively reduced expression in cancer couldcause gradations of unopposed prolactin-mediated LF stimulatoryfunction and contribute to breast tumor development/progression.

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Cancer Research	Clinical Cancer Research
Cancer Epidemiology Biomarkers & Prevention	Molecular Cancer Therapeutics
Molecular Cancer Research	Cancer Prevention Research
Cancer Prevention Journals Portal	Cancer Reviews Online
Annual Meeting Education Book	Meeting Abstracts Online

				E. D. Galsgaard, B. B. Rasmussen, C. G. Folkesson, L. M. Rasmussen, M. W. Berchtold, L. Christensen, and S. Panina Re-evaluation of the prolactin receptor expression in human breast cancer J. Endocrinol., April 1, 2009; 201(1): 115 - 128. [Abstract] [Full Text] [PDF]

				T. M. Piazza, J.-C. Lu, K. C. Carver, and L. A. Schuler Src Family Kinases Accelerate Prolactin Receptor Internalization, Modulating Trafficking and Signaling in Breast Cancer Cells Mol. Endocrinol., February 1, 2009; 23(2): 202 - 212. [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]

				P. W. Harvey, D. J. Everett, and C. J. Springall Adverse effects of prolactin in rodents and humans: breast and prostate cancer J Psychopharmacol, March 1, 2008; 22(2_suppl): 20 - 27. [Abstract] [PDF]

				C. Boyd and A. Naray-Fejes-Toth Steroid-Mediated Regulation of the Epithelial Sodium Channel Subunits in Mammary Epithelial Cells Endocrinology, August 1, 2007; 148(8): 3958 - 3967. [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]

				A. Diogenes, A. M. Patwardhan, N. A. Jeske, N. B. Ruparel, V. Goffin, A. N. Akopian, and K. M. Hargreaves Prolactin Modulates TRPV1 in Female Rat Trigeminal Sensory Neurons J. Neurosci., August 2, 2006; 26(31): 8126 - 8136. [Abstract] [Full Text] [PDF]

				A. M. Qazi, C.-H. Tsai-Morris, and M. L. Dufau Ligand-Independent Homo- and Heterodimerization of Human Prolactin Receptor Variants: Inhibitory Action of the Short Forms by Heterodimerization Mol. Endocrinol., August 1, 2006; 20(8): 1912 - 1923. [Abstract] [Full Text] [PDF]

				J. Dong, C.-H. Tsai-Morris, and M. L. Dufau A Novel Estradiol/Estrogen Receptor {alpha}-dependent Transcriptional Mechanism Controls Expression of the Human Prolactin Receptor J. Biol. Chem., July 7, 2006; 281(27): 18825 - 18836. [Abstract] [Full Text] [PDF]

				P W Harvey, D J Everett, and C J Springall Hyperprolactinaemia as an adverse effect in regulatory and clinical toxicology: role in breast and prostate cancer Human and Experimental Toxicology, July 1, 2006; 25(7): 395 - 404. [Abstract] [PDF]

				L. Milani, M. Fredriksson, and A.-C. Syvanen Detection of Alternatively Spliced Transcripts in Leukemia Cell Lines by Minisequencing on Microarrays Clin. Chem., February 1, 2006; 52(2): 202 - 211. [Abstract] [Full Text] [PDF]

				W. Wu, E. Ginsburg, B. K. Vonderhaar, and A. M. Walker S179D Prolactin Increases Vitamin D Receptor and p21 through Up-regulation of Short 1b Prolactin Receptor in Human Prostate Cancer Cells Cancer Res., August 15, 2005; 65(16): 7509 - 7515. [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]

				M. J. Waters and B. L. Conway-Campbell The oncogenic potential of autocrine human growth hormone in breast cancer PNAS, October 19, 2004; 101(42): 14992 - 14993. [Full Text] [PDF]