YAP-independent mechanotransduction drives breast cancer progression

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作者
Joanna Y. Lee
Jessica K. Chang
Antonia A. Dominguez
Hong-pyo Lee
Sungmin Nam
Julie Chang
Sushama Varma
Lei S. Qi
Robert B. West
Ovijit Chaudhuri
机构
[1] Stanford University,Department of Mechanical Engineering
[2] Department of Genetics,Department of Bioengineering
[3] Stanford University School of Medicine,Department of Chemical and Systems Biology
[4] Stanford University,Stanford ChEM
[5] Stanford University,H
[6] Stanford University,Department of Pathology
[7] Stanford University School of Medicine,undefined
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Nature Communications | / 10卷
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摘要
Increased tissue stiffness is a driver of breast cancer progression. The transcriptional regulator YAP is considered a universal mechanotransducer, based largely on 2D culture studies. However, the role of YAP during in vivo breast cancer remains unclear. Here, we find that mechanotransduction occurs independently of YAP in breast cancer patient samples and mechanically tunable 3D cultures. Mechanistically, the lack of YAP activity in 3D culture and in vivo is associated with the absence of stress fibers and an order of magnitude decrease in nuclear cross-sectional area relative to 2D culture. This work highlights the context-dependent role of YAP in mechanotransduction, and establishes that YAP does not mediate mechanotransduction in breast cancer.
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