2017
DOI: 10.1158/2159-8290.cd-16-0733
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Tissue Force Programs Cell Fate and Tumor Aggression

Abstract: Biomechanical and biochemical cues within a tissue collaborate across length scales to direct cell fate during development and are critical for the maintenance of tissue homeostasis. Loss of tensional homeostasis in a tissue not only accompanies malignancy but may also contribute to oncogenic transformation. High mechanical stress in solid tumors can impede drug delivery, and may additionally drive tumor progression and promote metastasis. Mechanistically, biomechanical forces can drive tumor aggression by ind… Show more

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Cited by 197 publications
(184 citation statements)
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References 140 publications
(190 reference statements)
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“…Tumor mechanics have a profound effect on fibroblasts and cancer cells and can promote tumor progression and metastasis (56). Stiffening of ECM creates a feed-forward self-reinforcing loop that contributes to the activation state of the fibroblast (57).…”
Section: Discussionmentioning
confidence: 99%
“…Tumor mechanics have a profound effect on fibroblasts and cancer cells and can promote tumor progression and metastasis (56). Stiffening of ECM creates a feed-forward self-reinforcing loop that contributes to the activation state of the fibroblast (57).…”
Section: Discussionmentioning
confidence: 99%
“…Blindly depleting the stroma would decrease tissue tension and in turn reduce tumour aggressivity,78 but would also risk to remove components of the ECM and subtypes of CAFs with tumour-inhibiting properties. Results from this approach could therefore give effects opposite to the intended.…”
Section: Introductionmentioning
confidence: 99%
“…7), providing, to our knowledge, the first direct link between upstream forces transmitted through the cytoskeleton and downstream nuclear localization of a transcriptional co-activator. Tissue stiffening is associated with tumorigenesis 38 and cancer progression 39 , suggesting that aberrant cytoskeletal mechanotransduction through FHL2 may contribute to FHL2's role in this disease. We report a strategy for generating point mutants specifically deficient in tensed F-actin binding that is applicable to all mechanoresponsive LIMprotein families we identified.…”
Section: Discussionmentioning
confidence: 99%