Mechanical pressure driving proteoglycan expression in mammographic density: a self-perpetuating cycle?
Date
2021
Authors
Reye, G.
Huang, X.
Haupt, L.M.
Murphy, R.J.
Northey, J.J.
Thompson, E.W.
Momot, K.I.
Hugo, H.J.
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Journal article
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Journal of Mammary Gland Biology and Neoplasia, 2021; 216(3):277-296
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Abstract
Regions of high mammographic density (MD) in the breast are characterised by a proteoglycan (PG)-rich fibrous stroma, where PGs mediate aligned collagen fibrils to control tissue stiffness and hence the response to mechanical forces. Literature is accumulating to support the notion that mechanical stiffness may drive PG synthesis in the breast contributing to MD. We review emerging patterns in MD and other biological settings, of a positive feedback cycle of force promoting PG synthesis, such as in articular cartilage, due to increased pressure on weight bearing joints. Furthermore, we present evidence to suggest a pro-tumorigenic effect of increased mechanical force on epithelial cells in contexts where PG-mediated, aligned collagen fibrous tissue abounds, with implications for breast cancer development attributable to high MD. Finally, we summarise means through which this positive feedback mechanism of PG synthesis may be intercepted to reduce mechanical force within tissues and thus reduce disease burden.
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Copyright 2021 The author(s) (http://creativecommons.org/licenses/by/4.0/)
Access Condition Notes: This article is licensed under a Creative Commons Attribution 4.0 International License