Premalignant Breast Tissue Research Articles

Cancer risk assessment of premalignant breast tissues from patients with BRCA mutations by genome profiling

Patients with germline pathogenic variants of BRCA1/2 genes have a particular predisposition to develop breast cancer. No clinical test has been developed to accurately and quantitatively evaluate their risk of developing breast cancer. We hypothesized that aberrant cell clonal expansion may be initiated in normal breast tissues without manifesting pathologic changes. To assess the prevalence of clonal expansion in the normal breast, we collected normal breast tissue from 24 breast cancer patients who had undergone surgical resection and 5 carriers of pathogenic BRCA1/2 variant who had undergone prophylactic mastectomy. Whole-exome sequencing (WES) was conducted in 97 specimens from 14 individuals, and TOP panel, a gene panel targeting 464 genes, was conducted in 321 specimens from 26 individuals, including 8 individuals with germline pathogenic variants of BRCA1/2 genes. Recurrent oncogenic mutations within PIK3CA, ARHGAP35, HRAS, and NF1 were identified in normal breast tissue at considerable variant allelic frequencies (VAF), suggesting clonal expansion. In addition, 937 normal breast tissues were evaluated using the Breast Cancer Panel (BCP) targeting 25 genes to determine the exact prevalence and distribution of clonal expansion. To assess the clonal expansion, we developed the clonality score, which is the mean value of clonal cell fractions for samples obtained from a given breast. The average clonality score in macroscopically normal breast tissue was 0.95 (0–2.46), with a significant difference between cases with and without a history of breast cancer of stage 2 or more advanced stage (p = 0.01). Additional WES on 42 samples with relatively large clone size (VAF > 3%) confirmed that these cell clones harbored multiple mutations (10.7 mutations/sample), and the number of existing mutations was consistent with the clone size (R = 0.50). The results suggest that clonal changes occur in normal breast tissue of women at high risk for breast cancer even before cancer is detected pathologically and/or radiologically, and the clonality score shows the potential to be a valid method of evaluating clonal expansion for cancer-risk assessment that provides appropriate preventive options for patients at high risk for breast cancer.

Gene expression profiles for low-dose exposure to diethyl phthalate in rodents and humans: a translational study with implications for breast carcinogenesis

Phthalates are commonly included as ingredients in personal care products such as cosmetics, shampoos and perfumes. Diethyl phthalate (DEP) has been found to be anti-androgenic and linked with adverse reproductive effects on males, but effects on females are poorly understood. We designed an integrative and translational study to experimentally examine the effects of DEP exposure at a human-equivalent dose on the mammary transcriptome in rats and to subsequently examine the DEP gene signature in breast tissues (both pre-malignant and tumor) from a population study. In Sprague-Dawley rats treated orally with DEP from birth to adulthood, we identified a signature panel of 107 genes predominantly down-regulated by DEP exposure. Univariate analysis of this 107 DEP gene signature in pre-malignant breast tissues revealed that six genes (P4HA1, MPZL3, TMC4, PLEKHA6, CA8, AREG) were inversely associated with monoethyl phthalate (MEP; the urinary metabolite of DEP) concentration (p < 0.05) among postmenopausal women; all six genes loaded on to one of seven factors identified by factor analysis. Transcription factor enrichment analysis revealed that genes in this factor were enriched for androgen receptor binding sites. These six genes were also significantly down-regulated in pre-malignant adjacent tissues compared to the corresponding tumor tissues in pair-wise analyses (p < 0.05). Results from our translational study indicate that low level exposure to diethyl phthalate results in measurable genomic changes in breast tissue with implications in breast carcinogenesis.

CD56+ immune cell infiltration and MICA are decreased in breast lobules with fibrocystic changes

PurposeWhile the role of natural killer (NK) cells in breast cancer therapy has been investigated, little information is known about NK cell function and presence in nonmalignant and premalignant breast tissue. Here, we investigate and quantify NK cell marker CD56 and activating ligand MICA in breast tissue with benign breast disease.MethodsSerial tissue sections from 88 subjects, 44 with benign breast disease (BBD) who remained cancer-free, and 44 with BBD who later developed cancer, were stained with H&E, anti-MICA, and anti-CD56. Up to ten representative lobules were identified on each section. Using digital image analysis, MICA and CD56 densities were determined for each lobule, reported as percent of pixels in the lobule that registered as stained by each antibody. Analyses were performed on a per-subject and per-lobule basis.ResultsPer-subject multivariate analyses showed associations of CD56 and MICA with age: CD56 was increased in older subjects (p = 0.03), while MICA was increased in younger subjects (p = 0.005). Per-lobule analyses showed that CD56 and MICA levels were both decreased in lobules with fibrocystic change, with median levels of CD56 and MICA staining, respectively, at 0.31 and 7.0% in fibrocystic lobules compared to 0.76 and 12.2% in lobules without fibrocystic change (p < 0.001 for each). Among fibrocystic lobules, proliferative/atypical lobules showed significantly lower expression compared to nonproliferative lobules for MICA (p = 0.02) but not for CD56 (p = 0.80).ConclusionLevels of CD56+ NK cells and activating ligand MICA were decreased in breast lobules with fibrocystic change, and MICA levels showed a significant stepwise decrease with increasing histopathologic abnormality. MICA levels were also significantly decreased in older subjects, who generally have higher risk of developing cancer. These findings advance a model in which MICA promotes cytotoxic activity in CD56+ NK cells to protect against tumorigenesis in breast lobules, and suggest further research is warranted.

Alterations in the Immune Cell Composition in Premalignant Breast Tissue that Precede Breast Cancer Development.

Purpose: Little is known about the role of the immune system in the earliest stages of breast carcinogenesis. We studied quantitative differences in immune cell types between breast tissues from normal donors and those from women with benign breast disease (BBD).Experimental Design: A breast tissue matched case-control study was created from donors to the Susan G. Komen for the Cure Tissue Bank (KTB) and from women diagnosed with BBD at Mayo Clinic (Rochester, MN) who either subsequently developed cancer (BBD cases) or remained cancer-free (BBD controls). Serial tissue sections underwent immunostaining and digital quantification of cell number per mm2 for CD4+ T cells, CD8+ T cells, CD20+ B cells, and CD68+ macrophages and quantification of positive pixel measure for CD11c (dendritic cells).Results: In 94 age-matched triplets, BBD lobules showed greater densities of CD8+ T cells, CD11c+ dendritic cells, CD20+ B cells, and CD68+ macrophages compared with KTB normals. Relative to BBD controls, BBD cases had lower CD20+ cell density (P = 0.04). Nearly 42% of BBD cases had no CD20+ B cells in evaluated lobules compared with 28% of BBD controls (P = 0.02). The absence of CD20+ cells versus the presence in all lobules showed an adjusted OR of 5.7 (95% confidence interval, 1.4-23.1) for subsequent breast cancer risk.Conclusions: Elevated infiltration of both innate and adaptive immune effectors in BBD tissues suggests an immunogenic microenvironment. The reduced B-cell infiltration in women with later breast cancer suggests a role for B cells in preventing disease progression and as a possible biomarker for breast cancer risk. Clin Cancer Res; 23(14); 3945-52. ©2017 AACR.

Abstract B28: Induced expression of Sprouty4 in breast invasive ductal carcinoma cells inhibits ERK MAP kinase and reduces malignant phenotype

Abstract Our previous work has identified increased expression of Sprouty4 in 3D models of breast ductal carcinoma in situ (DCIS). Sprouty4 in other systems has been shown to function as a negative regulator of the mitogen activated protein kinase (MAPK/ERK) pathway. We hypothesize that Sprouty4 is an endogenous inhibitor of ERK/MAPK signaling in DCIS, and that its loss or reduced expression is one mechanism by which triple-negative lesions progress toward invasive ductal carcinoma (IDC). Using immunohistochemistry our labs have found that Sprouty4 was highly expressed in some human premalignant breast tissue samples, and that this expression was reduced in malignant triple-negative samples. These results correspond with immunoblot data from our 3D culture model of breast cancer progression in which Sprouty4 expression was higher during DCIS than in the IDC stage. Efficient over-expression of Sprouty4 reduced both MAPK/ERK activity as well as the aggressive phenotype of MCF10.CA1d IDC cells. Immunofluorescence experiments done in IDC cells overexpressing Sprouty4 revealed relocation of E-cadherin back to the cell surface and the restoration of adherens junctions. To determine if these effects were due to changes in MAPK/ERK signaling, IDC cells were treated with MEK162, an allosteric MEK inhibitor. Nanomolar concentrations of drug restored an epithelial-like phenotype similar to that produced by Sprouty4 over-expression. From these data we conclude that Sprouty4 may act to control MAPK/ERK signaling in a subset of DCIS, thus limiting the progression of these premalignant breast cancers. Further, if in vivo data correspond with our in vitro work, this may argue for the investigation of MEK inhibitors as an adjunct treatment in triple-negative disease, where options are limited. Citation Format: Ryan M. Jackson, Ethan J. Brock, Seema Shah, Mansoureh Sameni, Bonnie F. Sloane, Quanwen Li, Raymond R. Mattingly. Induced expression of Sprouty4 in breast invasive ductal carcinoma cells inhibits ERK MAP kinase and reduces malignant phenotype. [abstract]. In: Proceedings of the AACR Precision Medicine Series: Targeting the Vulnerabilities of Cancer; May 16-19, 2016; Miami, FL. Philadelphia (PA): AACR; Clin Cancer Res 2017;23(1_Suppl):Abstract nr B28.

Abstract 4560: Induced Sprouty4 expression in breast invasive ductal carcinoma cells downregulates ERK/MAPK activity and restores an epithelial-like phenotype

Abstract Breast cancer is one of the most common cancers in U.S. women, with approximately 25% of these cases being in situ disease. Sprouty proteins are currently recognized as important regulators of ERK/MAPK signaling, and have been studied in various cancer types. By employing RNA-seq, previous studies from our laboratories determined specific gene expression changes common to three models of ductal carcinoma in situ (DCIS)—MCF10.DCIS, SUM 102, and SUM 225—when compared to MCF10A cells (a model of non-transformed breast epithelium). All cell lines were grown in three-dimensional (3D) reconstituted basement membrane overlay culture because research has shown that the behavior of cancer cells in 3D matrices is more reflective of an in vivo response when exposed to drugs and radiotherapy than if they are cultured on plastic. Among the three models of DCIS, 63 genes were consistently upregulated. We identified 244 promoters associated with these 63 genes and performed bioinformatic data mining that revealed a high level of enrichment for a promoter framework shared by three of these genes: one of which encoded for the protein Sprouty4. We hypothesize that Sprouty4 is an endogenous inhibitor of ERK/MAPK signaling in DCIS, and its loss or reduced expression is a mechanism by which triple-negative lesions progress toward invasive ductal carcinoma (IDC). Using immunohistochemistry we found that Sprouty4 was highly expressed in certain human premalignant breast tissue samples, and that this expression was reduced in malignant triple-negative samples. These results correspond with immunoblot data from our 3D culture model of breast cancer progression in which Sprouty4 expression was higher during DCIS than in the IDC stage. Efficient over-expression of Sprouty4 reduced both ERK/MAPK activity as well as the aggressive phenotype of MCF10.CA1d IDC cells. Immunofluorescence experiments revealed data consistent with the relocation of E-cadherin back to the cell surface and the restoration of adherens. To determine if these effects were due to changes in ERK/MAPK signaling IDC cells were treated with MEK162, an allosteric MEK inhibitor. Nanomolar concentrations of drug produced a restoration of an epithelial-like phenotype similar to Sprouty4 over-expression. From these data we conclude that Sprouty4 may act to control ERK/MAPK signaling in a subset of DCIS, thus limiting the progression of these premalignant breast cancers. Citation Format: Ethan J. Brock, Ryan Jackson, Seema Shah, Quanwen Li, Mansoureh Sameni, Stephen A. Krawetz, Shihong Mao, Bonnie F. Sloane, Raymond R. Mattingly. Induced Sprouty4 expression in breast invasive ductal carcinoma cells downregulates ERK/MAPK activity and restores an epithelial-like phenotype. [abstract]. In: Proceedings of the 107th Annual Meeting of the American Association for Cancer Research; 2016 Apr 16-20; New Orleans, LA. Philadelphia (PA): AACR; Cancer Res 2016;76(14 Suppl):Abstract nr 4560.

Abstract B34: CD56+ immune cell infiltration is decreased in benign breast lobules with fibrocystic changes

Abstract Introduction: CD56+ lymphocytes (a defining marker of natural killer cells) have a predominantly cytotoxic phenotype and a hypothetical role in breast tumor immunosurveillance. Here we investigate whether CD56+ staining density varies in nonmalignant breast lobules according to confirmed breast cancer risk factors- age, and histologic features of fibrocystic change and lobular involution. Methods: Archived breast tissue samples were obtained from 94 women with benign breast disease (BBD). The sample set was selected as a nested case-control study (47 cases, 47 controls) from within a large BBD cohort; cases were those who developed breast cancer subsequent to their benign breast biopsy; controls were matched to cases on age at biopsy, year of biopsy, and length of breast cancer free follow-up at least as long as the time-to-cancer in the matched case. Up to 10 representative lobules in each sample were characterized by H&amp;E for fibrocystic changes and the degree of epithelial proliferation (normal, nonproliferative, proliferative, atypia) and for degree of lobular involution (none, partial, complete). Consecutive sections were immunostained for CD56 and hematoxylin. Using digital image analysis, CD56 staining was quantified on a per lobule basis by pixel ratio (PR) (positive stain:total lobule). Statistical analysis was performed using linear mixed effects regression on the rank transformed density to account for correlations among multiple lobules from the same patient in assessing the association of density with lobule characteristics and using conditional logistic regression for association with case-control status. Results: Among 94 women (median age 52, range 35-73), 876 lobules were evaluated: 431 in BBD cases and 445 in BBD controls. Overall, 391 lobules (45%) were normal and the remaining 485 (55%) demonstrated fibrocystic changes. Among fibrocystic lobules, 247 (51%) had nonproliferative changes, 218 (45%) had epithelial proliferation, and 20 (4%) had atypical hyperplasia. Among normal lobules, 61 (16%) had no involution, 139 (36%) had partial involution, and 191 (49%) had complete involution. The vast majority of lobules (861/876, 98%) demonstrated presence of CD56+ cells, while only 15 of 876 lobules in 11 patients had zero CD56+ cells [7 cases (15%) versus 4 controls (8.5%) OR 1.75, p = 0.37]. The median CD56+ PR was 0.55% overall. Fibrocystic lobules as a group showed significantly lower median CD56+ PR compared to normal lobules (0.37% vs 0.85%, p &amp;lt; 0.0001). Among subcategories of fibrocystic lobules, the median CD56+ PR was lower in proliferative lobules (0.29%) compared to non-proliferative (0.42%), but this difference was not statistically significant (p = 0.55). Older women (age &amp;gt; 55) showed the highest CD56+ PR (median of 0.92%), as compared to 0.38% in women 45-55 (p=0.02), and 0.52% in women age &amp;lt;45 (p = 0.26). Among normal lobules, median CD56+ PR was similar between lobules with no involution (0.55%) and partial involution (0.52%) but was considerably higher among lobules with complete involution (1.3%, p = 0.09 and p = 0.05, respectively). In a multivariable model, CD56+ PR differences between fibrocystic and normal lobules remained significant (p = 0.0002) and also remained significant between age groups of &amp;gt; 55 and 45-55 (p = 0.02), while involution was non-significant. Median CD56+ PR was lower in cases (0.43%) compared to controls (0.72%), but this was not statistically significant (p=0.19) in our sample of 47 case-control pairs. Conclusions: Breast lobules with fibrocystic changes show less CD56+ cells, raising a question of possible immune suppression induced by early epithelial abnormalities. These findings encourage further investigation to improve understanding of the immune microenvironment in premalignant breast tissues. Citation Format: Rushin D. Brahmbhatt, Daniel Kerekes, Tanya L. Hoskin, Alvaro Pena, Daniel W. Visscher, Melody L. Stallings-Mann, Derek C. Radisky, Linda M. Murphy, Vernon Shane Pankratz, Keith L. Knutson, Marlene Frost, Amy C. Degnim. CD56+ immune cell infiltration is decreased in benign breast lobules with fibrocystic changes. [abstract]. In: Proceedings of the Thirteenth Annual AACR International Conference on Frontiers in Cancer Prevention Research; 2014 Sep 27-Oct 1; New Orleans, LA. Philadelphia (PA): AACR; Can Prev Res 2015;8(10 Suppl): Abstract nr B34.

Abstract 2364: CD68+ immune cells show different infiltration patterns in tissue samples from women with no clinical breast disease and those who have benign breast disease

Abstract Introduction: The role of macrophages in the tumor microenvironment is of increasing interest for tumor progression and invasion. Here we investigated the difference in CD68+ cell density in tissue samples from women with Benign Breast Disease (BBD) and women with no clinical breast disease from the Komen Tissue Bank (KTB) at Indiana University. Method: Archived breast tissue samples from women with BBD and no clinical breast disease were obtained for this age-matched case-control study. BBD samples included cases [later got Breast Cancer (BC)] and controls (did not get BC). Samples were characterized via H&amp;E stain for epithelial proliferation [normal (N), fibrocystic non-proliferative (NP), proliferative (P), or atypia (A)]. CD68+ cell density was obtained by digital image quantitation on a per lobule basis (Total CD68+ cells/mm2). Statistical analysis was performed with mixed effects regression. Results: Among 276 women (median age 53, range 35-79) comprising 92 age-matched triplets, 2508 lobules were evaluated [789 KTB, 839 BBD case, 880 BBD control]. 1407 (56%) lobules were normal and 1101 (44%) were fibrocystic {NP [613 (56%)], P [448 (41%)] and A [40 (4%)]}. Out of 2508 lobules analyzed, 2362 (94%) had CD68+ cells, while 146 (6%) showed zero CD68+ cells [19 (2%) BBD cases, 20 (2%) BBD controls, 107 (14%) KTB, p&amp;lt;0.0001]. KTB samples showed significantly lower (p&amp;lt;0.0001) CD68+ density (median 136 cells/mm2) as compared to BBD cases (median 313 cells/mm2) and BBD controls (median 299 cells/mm2). (See Table) For each lobule type, KTB samples had lower CD68+ density compared with the same lobule type in BBD samples (p&amp;lt;0.0001). Conclusion: CD68+ cells are more frequent in breast lobules from women with BBD compared to normal donors. This finding in premalignant breast tissues is consistent with inflammation as a driver of tumorigenesis. BBD case (n = 92 patients)BBD control (n = 92 patients)KTB(n = 92 patients)n lobulesMedian (IQR)n lobulesMedian (IQR)n lobulesMedian (IQR)Overall839313 (165 - 538)880299 (164 - 527)789136 (55 - 272)By Lobule TypeNormal344310 (177 - 557)434331 (177 - 567)629128 (55 - 255)All non-normal/fibrocystic lobules combined495314 (157 - 527)446274 (152 - 478)160159 (58 - 393)Fibrocystic non-proliferative231319 (153 - 543)263274 (140 - 496)119163 (71 - 359)Fibrocystic proliferative246295 (153 - 496)169277 (153 - 478)33128 (30 - 385)Atypia18484 (313 - 739)14260 (223 - 375)8216 (0 - 493)IQR - Interquartile range (25th percentile - 75th percentile) Citation Format: Muhammad A. Arshad, Daniel W. Visscher, Tanya L. Hoskin, Rushin D. Brahmbhatt, Alvaro Pena Jimenez, Melody L. Stallings Mann, Erin E. Miller, Linda M. Murphy, Jodi M. Carter, Stacey J. Winham, Keith L. Knutson, Derek C. Radisky, Amy C. Degnim. CD68+ immune cells show different infiltration patterns in tissue samples from women with no clinical breast disease and those who have benign breast disease. [abstract]. In: Proceedings of the 106th Annual Meeting of the American Association for Cancer Research; 2015 Apr 18-22; Philadelphia, PA. Philadelphia (PA): AACR; Cancer Res 2015;75(15 Suppl):Abstract nr 2364. doi:10.1158/1538-7445.AM2015-2364

Exploring type II microcalcifications in benign and premalignant breast lesions by shell-isolated nanoparticle-enhanced Raman spectroscopy (SHINERS)

The characteristics of type II microcalcifications in fibroadenoma (FB), atypical ductal hyperplasia (ADH), and ductal carcinoma in situ (DCIS) breast tissues has been analyzed by the fingerprint features of Raman spectroscopy. Fresh breast tissues were first handled to frozen sections and then they were measured by normal Raman spectroscopy. Due to inherently low sensitivity of Raman scattering, Au@SiO2 shell-isolated nanoparticle-enhanced Raman spectroscopy (SHINERS) technique was utilized. A total number of 71 Raman spectra and 70 SHINERS spectra were obtained from the microcalcifications in benign and premalignant breast tissues. Principal component analysis (PCA) was used to distinguish the type II microcalcifications between these tissues. This is the first time to detect type II microcalcifications in premalignant (ADH and DCIS) breast tissue frozen sections, and also the first time SHINERS has been utilized for breast cancer detection. Conclusions demonstrated in this paper confirm that SHINERS has great potentials to be applied to the identification of breast lesions as an auxiliary method to mammography in the early diagnosis of breast cancer.

Biochemical and mechanical extracellular matrix properties dictate mammary epithelial cell motility and assembly

Biochemical and mechanical cues of the extracellular matrix have been shown to play important roles in cell-matrix and cell-cell interactions. We have experimentally tested the combined influence of these cues to better understand cell motility, force generation, cell-cell interaction, and assembly in an in vitro breast cancer model. MCF-10A non-tumorigenic mammary epithelial cells were observed on surfaces with varying fibronectin ligand concentration and polyacrylamide gel rigidity. Our data show that cell velocity is biphasic in both matrix rigidity and adhesiveness. The maximum cell migration velocity occurs only at specific combination of substrate stiffness and ligand density. We found cell-cell interactions reduce migration velocity. However, the traction forces cells exert onto the substrate increase linearly with both cues, with cells in pairs exerting higher maximum tractions observed over single cells. A relationship between force and motility shows a maximum in single cell velocity not observed in cell pairs. Cell-cell adhesion becomes strongly favored on softer gels with elasticity ≤ 1250 Pascals (Pa), implying the existence of a compliance threshold that promotes cell-cell over cell-matrix adhesion. Finally on gels with stiffness similar to pre-malignant breast tissue, 400 Pa, cells undergo multicellular assembly and division into 3D spherical aggregates on a 2D surface.

Enhanced Mammary Progesterone Receptor-A Isoform Activity in the Promotion of Mammary Tumor Progression by Dietary Soy in Rats

Dietary contribution to breast cancer risk, recurrence, and progression remains incompletely understood. Increased consumption of soy and soy isoflavones is associated with reduced mammary cancer susceptibility in women and in rodent models of carcinogenesis. In rats treated with N-methyl-N-nitrosourea, dietary intake of soy protein isolate (SPI) reduced mammary tumor occurrence but increased incidence of more invasive tumors in tumored rats, relative to the control diet casein. Here we evaluated whether mammary tumor progression in tumor-bearing rats lifetime exposed to SPI is associated with deregulated progesterone receptor (PR) isoform expression. In histologically normal mammary glands of rats with invasive ductal carcinoma lesions, PR-A protein levels were higher for SPI- than casein-fed rats, whereas PR-B was undetectable for both groups. Increased mammary PR-A expression was associated with higher transforming growth factor-β1, stanniocalcin-1, and CD44 transcript levels; lower E-cadherin and estrogen receptor-α expression; and reduced apoptotic status in ductal epithelium. Serum progesterone (ng/ml) (CAS: 25.94 ± 3.81; SPI: 13.19 ± 2.32) and estradiol (pg/ml) (CAS: 27.9 ± 4.49; SPI: 68.48 ± 23.87) levels differed with diet. However, sera from rats of both diet groups displayed comparable mammosphere-forming efficiency in human MCF-7 cells. Thus, soy-rich diets may influence the development of more aggressive tumors by enhancing PR-A-dependent signaling in premalignant breast tissues.

Mammographic Density Correlation with Gail Model Breast Cancer Risk Estimates and Component Risk Factors

The Gail model is a validated breast cancer risk assessment tool that is primarily based on nonmodifiable breast cancer risk factors. Conversely, mammographic breast density is strongly correlated with breast cancer risk and responds to risk-modifying interventions. The purpose of our study was to correlate mammographic density with breast cancer risk as calculated by the Gail model and to examine the relative association of each of the model covariates to mammographic density. The study included 99 participants of the National Surgical Breast and Bowel Project P-1 trial, ages 36 to 74 years, all of whom had a mammogram and Gail model risk estimates done upon trial entry. Baseline mammograms were retrieved and digitized, and mammographic density was assessed by both subjective and computer-assisted objective measures. Mammographic density was 2-fold higher in women with a >15% lifetime risk of breast cancer compared with those with <15% risk, by all density assessment methods. This was equivalent to a 3% to 6% increase in density per 10% increase in risk. Gail model covariates that measured benign or premalignant breast tissue changes accounted for the majority (41%) of the relationship with increased mammographic density. Seven percent of density was not explained by risk factors included in the Gail model. The Gail model does not fully account for the association between breast density and calculated breast cancer risk. Because mammographic density is a modifiable marker, development of a breast cancer risk assessment tool that includes mammographic density could be beneficial for assessing individual risk.

Hyperplastic changes and receptor status in the breast tissue of bodybuilders under anabolic-androgenic steroid stimulation.

Anabolic androgenic steroids (AAS) are misused by athletes to improve their physical performance. AAS with similar groups and configuration indicate that testosterone is the base of this ability to stimulate anabolic activity. The effect of these compounds on the breast tissue of males that consume them is a confirmation of its metabolic pathway. To confirm its hormonal effects, the status of estradiol and progesterone receptors (ER, PgR) status was determined in cytoplasmic and nuclear fractions (HRc, HRn) of 8 premalignant breast tissues from 8 bodybuilders (aged 21 to 45 years) under AAS stimulation. The control group included 5 males with benign disorders of the breast, but not due to AAS administration. The concentrations of ERc and ERn were significantly higher (p < .05) in males under AAS stimulation than in males without these. The concentrations of PgRc and PgRn do not differ between these two groups (p > .05) The benign breast disease is remarkably similar in female and male patients, suggesting a common origin. In the same way, the measurement of both HRc and HRn is necessary to accurately report receptor concentration.