Alexander Abdou scite author profile

Alexander Abdou

2Publications

4Citation Statements Received

60Citation Statements Given

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Integra (United States)

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β-adrenergic signaling modulates cancer cell mechanotype through a RhoA-ROCK-myosin II axis

Kim

Vazquez-Hidalgo

Abdou

et al. 2019

Preprint

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The ability of cells to deform and generate forces are key mechanical properties that are implicated in metastasis. While various soluble and mechanical cues are known to regulate cancer cell mechanical phenotype or mechanotype, our knowledge of how cells translate external signals into changes in mechanotype is still emerging. We previously discovered that activation of β -adrenergic signaling, which results from soluble stress hormone cues, causes cancer cells to be stiffer or less deformable; this stiffer mechanotype was associated with increased cell motility and invasion. Here, we characterize how β -adrenergic activation is translated into changes in cellular mechanotype by identifying molecular mediators that regulate key components of mechanotype including cellular deformability, traction forces, and nonmuscle myosin II (NMII) activity. Using a micropillar assay and computational modelling, we determine that β AR activation increases cellular force generation by increasing the number of actin-myosin binding events; this mechanism is distinct from how cells increase force production in response to matrix stiffness, suggesting that cells regulate their mechanotype using a complementary mechanism in response to stress hormone cues. To identify the molecules that modulate cellular mechanotype with β AR activation, we use a high throughput filtration platform to screen the effects of pharmacologic and genetic perturbations on β AR regulation of whole cell deformability. Our results indicate that β AR activation decreases cancer cell deformability and increases invasion by signaling through RhoA, ROCK, and NMII. Our findings establish β AR-RhoA-ROCK-NMII as a primary signaling axis that mediates cancer cell mechanotype, which provides a foundation for future interventions to stop metastasis.

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Beta-Adrenergic Signaling Modulates Cancer Cell Mechanotype through a Rhoa-Rock-Myosin II Axis

Kim¹,

Vazquez-Hidalgo

Abdou³

et al. 2020

Biophysical Journal

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Alexander Abdou

β-adrenergic signaling modulates cancer cell mechanotype through a RhoA-ROCK-myosin II axis

Beta-Adrenergic Signaling Modulates Cancer Cell Mechanotype through a Rhoa-Rock-Myosin II Axis

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