Abstract
High mammographic density (MD) is associated with a 4–6 times increase in breast cancer risk. For post-menopausal women, MD often decreases over time, but little is known about the underlying biological mechanisms. MD reflects breast tissue composition, and may be associated with microenvironment subtypes previously identified in tumor-adjacent normal tissue. Currently, these subtypes have not been explored in normal breast tissue. We obtained biopsies from breasts of healthy women at two different time points several years apart and performed microarray gene expression analysis. At time point 1, 65 samples with both MD and gene expression were available. At time point 2, gene expression and MD data were available from 17 women, of which 11 also had gene expression data available from the first time point. We validated findings from our previous study; negative correlation between RBL1 and MD in post-menopausal women, indicating involvement of the TGFβ pathway. We also found that breast tissue samples from women with a large decrease in MD sustained higher expression of genes in the histone family H4. In addition, we explored the previously defined active and inactive microenvironment subtypes and demonstrated that normal breast samples of the active subtype had characteristics similar to the claudin-low breast cancer subtype. Breast biopsies from healthy women are challenging to obtain, but despite a limited sample size, we have identified possible mechanisms relevant for changes in breast biology and MD over time that may be of importance for breast cancer risk and tumor initiation.
Highlights
Breast cancer cells are extensively influenced by their noncancerous surroundings, the microenvironment
There was no difference in relative Mammographic density (MD) change between women who had passed menopause between sampling times (n = 5, mean relative MD change = −41.7%) compared to those who already were postmenopausal at the first time point (n = 8, mean relative MD change = −42.6%)
We have validated a negative correlation between Retinoblastoma-like protein 1 (RBL1) expression and mammographic density in postmenopausal women, and found that breast tissue samples from women with a large decrease in mammographic density over time sustained higher expression of histone family genes
Summary
Breast cancer cells are extensively influenced by their noncancerous surroundings, the microenvironment. The microenvironment consists of cells (such as fibroblasts, immune cells, endothelial cells and normal epithelial cells) and extracellular matrix (ECM) including collagen, which all may influence initiation and progression of cancer [1, 2]. Mammographic density (MD) is a measure of radiologic density of the breast [3]. It varies extensively between individuals and may be seen as a radiologic reflection of breast tissue composition; epithelial and non-epithelial cells as well as collagen increase MD. Reduction in MD has been linked to a reduction in breast cancer incidence for women using Tamoxifen as primary prevention [9] and for patients receiving adjuvant hormonal therapy [10]
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