Plasma Prolactin Concentrations and Risk of Postmenopausal Breast Cancer

doi:10.1158/0008-5472.CAN-04-1870

Epidemiology and Prevention

Plasma Prolactin Concentrations and Risk of Postmenopausal Breast Cancer

Shelley S. Tworoger¹^,2, A. Heather Eliassen¹^,2, Bernard Rosner¹^,3, Patrick Sluss⁴ and Susan E. Hankinson¹^,2

¹ Channing Laboratory, Department of Medicine, Brigham and Women’s Hospital and Harvard Medical School; Departments of ² Epidemiology and ³ Biostatistics, Harvard School of Public Health; and ⁴ Reproductive Endocrinology Unit Laboratory, Massachusetts General Hospital, Boston, Massachusetts

Prolactin is important in human breast development, and substantiallaboratory and in vitro data suggest a role in mammary carcinogenesis.Therefore, we conducted a prospective case-control study nestedwithin the Nurses’ Health Study cohort to examine, indetail, the association between plasma prolactin concentrationsand postmenopausal breast cancer by cancer invasiveness, estrogenreceptor/progesterone receptor status, and other subject characteristics,including postmenopausal hormone use. Blood samples were collectedfrom 1989 to 1990 and prolactin was measured by microparticleenzyme immunoassay. The analysis included 851 cases of postmenopausalbreast cancer diagnosed after blood collection and before June2000, in which there were one or two controls (n = 1,275) matchedon age, postmenopausal hormone use, fasting status, and timeof day and month of blood collection. Prolactin was associatedwith a modestly increased risk of postmenopausal breast cancer[relative risk, top versus bottom quartile, 1.34; 95% confidenceinterval (CI), 1.02–1.76; P-trend = 0.01]. The associationdiffered by estrogen receptor/progesterone receptor status (P-heterogeneity= 0.03). The relative risk was 1.78 (95% CI, 1.28, 2.50; P-trend< 0.001) for estrogen receptor+/progesterone receptor+, 0.76(95% CI, 0.43, 1.32; P-trend = 0.28) for estrogen receptor–/progesteronereceptor–, and 1.94 (95% CI, 0.99, 3.78; P-trend = 0.12)for estrogen receptor+/progesterone receptor– breast cancers.Associations generally were similar for ductal and lobular carcinomas(P-heterogeneity = 0.43) and by tumor size (P-heterogeneity= 0.24). Among estrogen receptor+/progesterone receptor+ cancers,the association did not significantly differ by postmenopausalhormone use, years between blood draw and diagnosis, or afteradjustment for estradiol (relative risk, 1.93; 95% CI, 1.16,3.22; P-trend = 0.01). Our prospective data suggest that plasmaprolactin concentrations are associated with an increased riskof postmenopausal breast cancer, particularly for estrogen receptor+/progesteronereceptor+ cancers, and independently of estradiol.

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Cancer Research	Clinical Cancer Research
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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

				A. Plotnikov, Y. Li, T. H. Tran, W. Tang, J. P. Palazzo, H. Rui, and S. Y. Fuchs Oncogene-Mediated Inhibition of Glycogen Synthase Kinase 3{beta} Impairs Degradation of Prolactin Receptor Cancer Res., March 1, 2008; 68(5): 1354 - 1361. [Abstract] [Full Text] [PDF]

				S. M Dursun, H. J. Wildgust, P. Strickland, G. M Goodwin, L. Citrome, and M. Lean The emerging physical health challenges of antipsychotic associated hyperprolactinaemia in patients with serious mental illness J Psychopharmacol, March 1, 2008; 22(2_suppl): 3 - 5. [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. Bushe, M. Shaw, and R. C Peveler A review of the association between antipsychotic use and hyperprolactinaemia J Psychopharmacol, March 1, 2008; 22(2_suppl): 46 - 55. [Abstract] [PDF]

				C. Bushe, D. Yeomans, T. Floyd, and S. M Smith Categorical prevalence and severity of hyperprolactinaemia in two UK cohorts of patients with severe mental illness during treatment with antipsychotics J Psychopharmacol, March 1, 2008; 22(2_suppl): 56 - 62. [Abstract] [PDF]

				R. C Peveler, D. Branford, L. Citrome, P. Fitzgerald, P. W Harvey, R. I. Holt, L. Howard, D. Kohen, I. Jones, V. O'Keane, et al. Antipsychotics and hyperprolactinaemia: Clinical recommendations J Psychopharmacol, March 1, 2008; 22(2_suppl): 98 - 103. [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]

				R. W. Mathes, K. E. Malone, J. R. Daling, P. L. Porter, and C. I. Li Relationship between Histamine2-Receptor Antagonist Medications and Risk of Invasive Breast Cancer Cancer Epidemiol. Biomarkers Prev., January 1, 2008; 17(1): 67 - 72. [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]

				R. M. Tamimi, C. Byrne, G. A. Colditz, and S. E. Hankinson Endogenous Hormone Levels, Mammographic Density, and Subsequent Risk of Breast Cancer in Postmenopausal Women J Natl Cancer Inst, August 1, 2007; 99(15): 1178 - 1187. [Abstract] [Full Text] [PDF]

				S. S. Tworoger, B. Sorensen, J. Chubak, M. Irwin, F. Z. Stanczyk, C. M. Ulrich, J. Potter, and A. McTiernan Effect of a 12-Month Randomized Clinical Trial of Exercise on Serum Prolactin Concentrations in Postmenopausal Women Cancer Epidemiol. Biomarkers Prev., May 1, 2007; 16(5): 895 - 899. [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]

				S. S. Tworoger, A. H. Eliassen, T. Kelesidis, G. A. Colditz, W. C. Willett, C. S. Mantzoros, and S. E. Hankinson Plasma Adiponectin Concentrations and Risk of Incident Breast Cancer J. Clin. Endocrinol. Metab., April 1, 2007; 92(4): 1510 - 1516. [Abstract] [Full Text] [PDF]

				E. Cho, W. Y. Chen, D. J. Hunter, M. J. Stampfer, G. A. Colditz, S. E. Hankinson, and W. C. Willett Red meat intake and risk of breast cancer among premenopausal women. Arch Intern Med, November 13, 2006; 166(20): 2253 - 2259. [Abstract] [Full Text] [PDF]

				C. J. Fabian and B. F. Kimler Mammographic Density: Use in Risk Assessment and as a Biomarker in Prevention Trials J. Nutr., October 1, 2006; 136(10): 2705S - 2708S. [Full Text] [PDF]

				C. Manhes, C. Kayser, P. Bertheau, B. Kelder, J. J Kopchick, P. A Kelly, P. Touraine, and V. Goffin Local over-expression of prolactin in differentiating mouse mammary gland induces functional defects and benign lesions, but no carcinoma. J. Endocrinol., August 1, 2006; 190(2): 271 - 285. [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]

				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]

				V. G. Vogel and E. Taioli Have We Found the Ultimate Risk Factor for Breast Cancer? J. Clin. Oncol., April 20, 2006; 24(12): 1791 - 1794. [Full Text] [PDF]

				A. Vaclavicek, K. Hemminki, C. R. Bartram, K. Wagner, B. Wappenschmidt, A. Meindl, R. K. Schmutzler, R. Klaes, M. Untch, B. Burwinkel, et al. Association of Prolactin and Its Receptor Gene Regions with Familial Breast Cancer J. Clin. Endocrinol. Metab., April 1, 2006; 91(4): 1513 - 1519. [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]

				G. Albrektsen, I. Heuch, S. Thoresen, and G. Kvale Clinical Stage of Breast Cancer by Parity, Age at Birth, and Time Since Birth: A Progressive Effect of Pregnancy Hormones? Cancer Epidemiol. Biomarkers Prev., January 1, 2006; 15(1): 65 - 69. [Abstract] [Full Text] [PDF]

				R. M. Tamimi, S. E. Hankinson, G. A. Colditz, and C. Byrne Endogenous Sex Hormone Levels and Mammographic Density among Postmenopausal Women Cancer Epidemiol. Biomarkers Prev., November 1, 2005; 14(11): 2641 - 2647. [Abstract] [Full Text] [PDF]

				G. Mor, I. Visintin, Y. Lai, H. Zhao, P. Schwartz, T. Rutherford, L. Yue, P. Bray-Ward, and D. C. Ward Serum protein markers for early detection of ovarian cancer PNAS, May 24, 2005; 102(21): 7677 - 7682. [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]