Grant Details
| Grant Number: | 1R01CA158328-01A1 Interpret this number |
| Primary Investigator: | Santen, Richard |
| Organization: | University Of Virginia |
| Project Title: | Development of Breast Cancer Risk Model Based on Estrogen Metabolomics |
| Fiscal Year: | 2012 |
Abstract
DESCRIPTION (provided by applicant): Development of breast cancer risk model based on estrogen metabolomics. Anti-estrogens provide an effective strategy to prevent breast cancer but eligible women generally decline therapy because of unfavorable benefit/risk ratios. Data from prevention studies indicate that fifty women need to be treated with these agents for five years to prevent one breast cancer. To improve the ratio of benefit to risk, a more powerful method of identifying women at very high risk of developing breast cancer is urgently needed. Prediction of disease risk is best grounded on factors involved in its pathogenesis. We propose an integrative hypothesis regarding the carcinogenic process which involves both estrogen receptor alpha (ER¿) dependent as well as ER¿ independent actions. Through ER¿, estradiol (E2) stimulates proliferation with resultant replicative mutations and promotes the growth of cells harboring those mutations. Independent of ER¿, estrogen metabolites both form unstable DNA adducts and generate oxygen free radicals thorough redox cycling to initiate mutations. Several genetically regulated enzymes modulate estrogen metabolism and the process of repair of estrogen induced mutations. Our innovative hypothesis regarding estrogen induced breast cancer integrates all of these processes into a model of carcinogenesis and implicates the entire estrogen metabolome in the genesis of breast cancer. These concepts suggest that measurement of estrogen metabolomics should provide a powerful, mechanism-based method of predicting who will develop breast cancer. Metabolomic assessment entails quantitative measurement of aromatizable androgens, estrogens, and their metabolites and SNPs from enzymes regulating the metabolic process. Several important factors have recently come together to enable us to test this concept. A new, state of the art, mass spectrometer coupled with an ultra-performance liquid chromatography system makes it possible for the first time to measure all estrogen metabolites in small amounts of serum. We can measure SNPs which involve enzymes regulating estrogen metabolism and have been shown to correlate with breast cancer risk. To develop a model, we will utilize serum samples and risk factor data from 3 cohort studies (NYU, Clue I and II, and Rancho Bernardo) which had collected blood from women 5-20 years ago and then followed them prospectively for development of breast cancer. Availability of these techniques, samples and risk factor data allows performance of a nested case-control study to develop a new, more powerful risk prediction model. We will then validate this model in a completely independent data set involving the French Teacher's Study. We anticipate reducing the number of women needed to be treated to prevent one breast cancer from 50 to 13 with tamoxifen and to 5.with aromatase inhibitors. PUBLIC HEALTH RELEVANCE: Breast Cancer is a common disease and prevention is the best therapeutic strategy. This project will develop a risk prediction model which will allow identification of women with a high probability of a being diagnosed with breast cancer over the next 10 years. These women will be likely to accept aromatase inhibitors as a means to prevent breast cancer and the public health impact will be substantial.
Publications
Analysis Of Estrogens And Androgens In Postmenopausal Serum And Plasma By Liquid Chromatography-mass Spectrometry
Authors: Wang Q. , Bottalico L. , Mesaros C. , Blair I.A. .
Source: Steroids, 2015 Jul; 99(Pt A), p. 76-83.
PMID: 25150018
Related Citations
Estrogens And Their Genotoxic Metabolites Are Increased In Obese Prepubertal Girls
Authors: Mauras N. , Santen R.J. , Colón-Otero G. , Hossain J. , Wang Q. , Mesaros C. , Blair I.A. .
Source: The Journal Of Clinical Endocrinology And Metabolism, 2015 Jun; 100(6), p. 2322-8.
PMID: 25856214
Related Citations
Ultrasensitive Quantification Of Serum Estrogens In Postmenopausal Women And Older Men By Liquid Chromatography-tandem Mass Spectrometry
Authors: Wang Q. , Rangiah K. , Mesaros C. , Snyder N.W. , Vachani A. , Song H. , Blair I.A. .
Source: Steroids, 2015 Apr; 96, p. 140-52.
PMID: 25637677
Related Citations
Translational Metabolomics In Cancer Research
Authors: Snyder N.W. , Mesaros C. , Blair I.A. .
Source: Biomarkers In Medicine, 2015; 9(9), p. 821-34.
PMID: 26329905
Related Citations
What Are The Main Considerations For Bioanalysis Of Estrogens And Androgens In Plasma And Serum Samples From Postmenopausal Women?
Authors: Mesaros C. , Wang Q. , Blair I.A. .
Source: Bioanalysis, 2014; 6(23), p. 3073-5.
PMID: 25529875
Related Citations
Cellular Uptake And Antiproliferative Effects Of 11-oxo-eicosatetraenoic Acid
Authors: Snyder N.W. , Revello S.D. , Liu X. , Zhang S. , Blair I.A. .
Source: Journal Of Lipid Research, 2013 Nov; 54(11), p. 3070-7.
PMID: 23945567
Related Citations
Modeling Of The Growth Kinetics Of Occult Breast Tumors: Role In Interpretation Of Studies Of Prevention And Menopausal Hormone Therapy
Authors: Santen R.J. , Yue W. , Heitjan D.F. .
Source: Cancer Epidemiology, Biomarkers & Prevention : A Publication Of The American Association For Cancer Research, Cosponsored By The American Society Of Preventive Oncology, 2012 Jul; 21(7), p. 1038-48.
PMID: 22586072
Related Citations