Age-Related Dysfunction in Mechanotransduction Impairs Differentiation of Human Mammary Epithelial Progenitors

Age-Related Dysfunction in Mechanotransduction Impairs Differentiation of Human Mammary Epithelial Progenitors

Dysfunctional progenitor and luminal cells with acquired basal cell properties accumulate during human mammary epithelial aging for reasons not understood. Multipotent progenitors from women aged 55 years is unaffected by physiological stiffness changes. Efficient activation of Hippo pathway transdu...

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Veröffentlicht in:The Role of Age in Cellular Responses to Microenvironmental Cues as a Breast Cancer Susceptibility Factor 2014
Hauptverfasser: Pelissier, Fanny, Garbe, James C, Ananthanarayanan, Badriprasad, Miyano, Masaru, Lin, ChunHan, Jokela, Tiina, Kumar, Sanjay, Stampfer, Martha R, Lorens, James, LaBarge, Mark A
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Sprache:eng
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Zusammenfassung:Dysfunctional progenitor and luminal cells with acquired basal cell properties accumulate during human mammary epithelial aging for reasons not understood. Multipotent progenitors from women aged 55 years is unaffected by physiological stiffness changes. Efficient activation of Hippo pathway transducers YAP and TAZ is required for the modulus-dependent myoepithelial/ basal bias in younger progenitors. In older progenitors, YAP and TAZ are activated only when stressed with extraphysiologically stiff matrices, which bias differentiation towards luminal-like phenotypes. In vivo YAP is primarily active in myoepithelia of younger breasts, but localization and activity increases in luminal cells with age. Thus, aging phenotypes of mammary epithelia may arise partly because alterations in Hippo pathway activation impair microenvironment-directed differentiation and lineage specificity.