2021
DOI: 10.3390/ijms22083962
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Cell Force-Driven Basement Membrane Disruption Fuels EGF- and Stiffness-Induced Invasive Cell Dissemination from Benign Breast Gland Acini

Abstract: Local basement membrane (BM) disruption marks the initial step of breast cancer invasion. The activation mechanisms of force-driven BM-weakening remain elusive. We studied the mechanical response of MCF10A-derived human breast cell acini with BMs of tuneable maturation to physical and soluble tumour-like extracellular matrix (ECM) cues. Traction force microscopy (TFM) and elastic resonator interference stress microscopy (ERISM) were used to quantify pro-invasive BM stress and protrusive forces. Substrate stiff… Show more

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Cited by 13 publications
(18 citation statements)
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“…To examine the formation of actin-based cell protrusions (CP) and their function for BM invasion, we used MCF10A-derived breast cell acini with an endogenously formed BM scaffold. This cell model has been widely used to study normal breast gland morphogenesis [33] and the invasion-promoting role of immature BM mechanics [6]. We adopted acini with either a low-developed BM (ld-BM, 11 days old) or a highly-developed BM (hd-BM, 22 days old) from the latter work.…”
Section: Tumor-like Egf and Substrate Stiffness Induce Bm-piercing Microspikesmentioning
confidence: 99%
See 3 more Smart Citations
“…To examine the formation of actin-based cell protrusions (CP) and their function for BM invasion, we used MCF10A-derived breast cell acini with an endogenously formed BM scaffold. This cell model has been widely used to study normal breast gland morphogenesis [33] and the invasion-promoting role of immature BM mechanics [6]. We adopted acini with either a low-developed BM (ld-BM, 11 days old) or a highly-developed BM (hd-BM, 22 days old) from the latter work.…”
Section: Tumor-like Egf and Substrate Stiffness Induce Bm-piercing Microspikesmentioning
confidence: 99%
“…A sample transfer onto cover slips was mandatory to capture the dynamic process of CP formation and retraction with high microscopic resolution. Besides, such stiff substrate stimulation was purposely used in this work to trigger the invasive transition of benign breast acini, as previously described [6].…”
Section: Tumor-like Egf and Substrate Stiffness Induce Bm-piercing Microspikesmentioning
confidence: 99%
See 2 more Smart Citations
“…On a mesocellular level, microcontact printing, microfluidics and microfabrication have been combined to study the role of FN fibrils in transmitting forces, using either cell-derived fibrils [19,45] or artificially derived fibers [65,96], but these studies do not specifically investigate FN fibril mechanics. In the interest of measuring cell-substrate forces, some techniques such as atomic force microscopy (AFM) [103], (astigmatic) traction force microscopy [104], elastic resonator interference stress microscopy (ERISM) [105], or hex dot microcontact printing [106] tend not to focus directly on ECM response to deformation, where often FN, if involved, may only be considered for facilitating substrate attachment or is subjected to the survey only at the molecular or domain constitution [97].…”
Section: Strategies For Studying Fn Biophysical Propertiesmentioning
confidence: 99%