Kshitiz, Afzal, J., Maziarz, J.D. et al. Nat Ecol Evol 3, pp. 1743–1753, Publication Date: 2019 (Link to Paper)
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Cancer cell migration through and away from tumors is driven in part by migration along aligned extracellular matrix, a process known as contact guidance (CG). To concurrently study the influence of architectural and mechanical regulators of CG sensing, we developed a set of CG platforms. Using flat and nanotextured substrates with variable architectures and stiffness, we show that CG sensing is regulated by substrate stiffness and define a mechanical role for microtubules and actomyosin-microtubule interactions during CG sensing. Furthermore, we show that Arp2/3-dependent lamellipodia dynamics can compete with aligned protrusions to diminish the CG response and define Arp2/3- and Formins-dependent actin architectures that regulate microtubule-dependent protrusions, which promote the CG response. Thus, our work represents a comprehensive examination of the physical mechanisms influencing CG sensing.
Originally Published in: Cell Reports (2018) (Link to Paper)
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Kim, D., Ewald, A.J., Park, J. et al. Sci Rep 8, 14210, Publication Date: 2018 (Link to Paper)
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Ray, A., Lee, O., Win, Z. et al. Nat Commun 8, 14923, Publication Date: 2017 (Link To Paper)
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