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EB1 and cytoplasmic dynein mediate protrusion dynamics for efficient 3‐dimensional cell migration
Microtubules have long been implicated to play an integral role in metastatic disease, for which a critical step is the local invasion of tumor cells into the 3‐dimensional (3D) collagen‐rich stromal matrix. Here we show that cell migration of human cancer cells uses the dynamic formation of highly...
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| Published in: | The FASEB journal 2018-03, Vol.32 (3), p.1207-1221 |
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| creator | Jayatilaka, Hasini Giri, Anjil Karl, Michelle Aifuwa, Ivie Trenton, Nicholaus J. Phillip, Jude M. Khatau, Shyam Wirtz, Denis |
| description | Microtubules have long been implicated to play an integral role in metastatic disease, for which a critical step is the local invasion of tumor cells into the 3‐dimensional (3D) collagen‐rich stromal matrix. Here we show that cell migration of human cancer cells uses the dynamic formation of highly branched protrusions that are composed of a microtubule core surroundedby cortical actin, a cytoskeletal organization thatis absent in cells on 2‐dimensional (2D) substrates. Microtubule plus‐end tracking protein End‐binding 1 and motor protein dynein subunits light intermediate chain 2 and heavy chain 1, which do not regulate 2D migration, critically modulate 3D migration by affecting RhoA and thus regulate protrusion branching through differential assembly dynamics of microtubules. An important consequence of this observation is that the commonly used cancer drug paclitaxel is 100‐fold more effective at blocking migration in a 3D matrix than on a 2D matrix. This work reveals the central role that microtubule dynamics plays in powering cell migration in a more pathologically relevant setting and suggests further testing of therapeutics targeting microtubules to mitigate migration.—Jayatilaka, H., Giri, A., Karl, M., Aifuwa, I., Trenton, N. J., Phillip, J. M., Khatau, S., Wirtz, D. EB1 and cytoplasmic dynein mediate protrusion dynamics for efficient 3‐dimensional cell migration. FASEB J. 32, 1207–1221 (2018). www.fasebj.org |
| doi_str_mv | 10.1096/fj.201700444RR |
| format | article |
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This work reveals the central role that microtubule dynamics plays in powering cell migration in a more pathologically relevant setting and suggests further testing of therapeutics targeting microtubules to mitigate migration.—Jayatilaka, H., Giri, A., Karl, M., Aifuwa, I., Trenton, N. J., Phillip, J. M., Khatau, S., Wirtz, D. EB1 and cytoplasmic dynein mediate protrusion dynamics for efficient 3‐dimensional cell migration. 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This work reveals the central role that microtubule dynamics plays in powering cell migration in a more pathologically relevant setting and suggests further testing of therapeutics targeting microtubules to mitigate migration.—Jayatilaka, H., Giri, A., Karl, M., Aifuwa, I., Trenton, N. J., Phillip, J. M., Khatau, S., Wirtz, D. EB1 and cytoplasmic dynein mediate protrusion dynamics for efficient 3‐dimensional cell migration. 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| ispartof | The FASEB journal, 2018-03, Vol.32 (3), p.1207-1221 |
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| source | Wiley-Blackwell Read & Publish Collection |
| subjects | Cell Culture Techniques - methods Cell Movement Cell Surface Extensions - physiology Cytoplasmic Dyneins - metabolism Fibrosarcoma - metabolism Fibrosarcoma - pathology Humans microtubule Microtubule-Associated Proteins - metabolism Microtubules - metabolism Microtubules - pathology paclitaxel RhoA Tumor Cells, Cultured |
| title | EB1 and cytoplasmic dynein mediate protrusion dynamics for efficient 3‐dimensional cell migration |
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