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Durotaxis by Human Cancer Cells
Biophysical journal, 2019-02, Vol.116 (4), p.670-683
[Peer Reviewed Journal]
2019 ;Published by Elsevier Inc. ;ISSN: 0006-3495 ;EISSN: 1542-0086 ;DOI: 10.1016/j.bpj.2019.01.009 ;PMID: 30709621
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Title:
Durotaxis by Human Cancer Cells
Author:
DuChez, Brian J.
;
Doyle, Andrew D.
;
Dimitriadis, Emilios K.
;
Yamada, Kenneth M.
Subjects:
Actin-Related Protein 2-3 Complex - metabolism
;
Biomechanical Phenomena
;
Cell Line, Tumor
;
Cell Movement
;
Humans
;
Kinetics
Is Part Of:
Biophysical journal, 2019-02, Vol.116 (4), p.670-683
Description:
Durotaxis is a type of directed cell migration in which cells respond to a gradient of extracellular stiffness. Using automated tracking of positional data for large sample sizes of single migrating cells, we investigated 1) whether cancer cells can undergo durotaxis; 2) whether cell durotactic efficiency varies depending on the regional compliance of stiffness gradients; 3) whether a specific cell migration parameter such as speed or time of migration correlates with durotaxis; and 4) whether Arp2/3, previously implicated in leading edge dynamics and migration, contributes to cancer cell durotaxis. Although durotaxis has been characterized primarily in nonmalignant mesenchymal cells, little is known about its role in cancer cell migration. Diffusible factors are known to affect cancer cell migration and metastasis. However, because many tumor microenvironments gradually stiffen, we hypothesized that durotaxis might also govern migration of cancer cells. We evaluated the durotactic potential of multiple cancer cell lines by employing substrate stiffness gradients mirroring the physiological stiffness encountered by cells in a variety of tissues. Automated cell tracking permitted rapid acquisition of positional data and robust statistical analyses for migrating cells. These durotaxis assays demonstrated that all cancer cell lines tested (two glioblastoma, metastatic breast cancer, and fibrosarcoma) migrated directionally in response to changes in extracellular stiffness. Unexpectedly, all cancer cell lines tested, as well as noninvasive human fibroblasts, displayed the strongest durotactic migratory response when migrating on the softest regions of stiffness gradients (2–7 kPa), with decreased responsiveness on stiff regions of gradients. Focusing on glioblastoma cells, durotactic forward migration index and displacement rates were relatively stable over time. Correlation analyses showed the expected correlation with displacement along the gradient but much less with persistence and none with cell speed. Finally, we found that inhibition of Arp2/3, an actin-nucleating protein necessary for lamellipodial protrusion, impaired durotactic migration.
Publisher:
United States: Elsevier Inc
Language:
English
Identifier:
ISSN: 0006-3495
EISSN: 1542-0086
DOI: 10.1016/j.bpj.2019.01.009
PMID: 30709621
Source:
Cell Press Free Archives
MEDLINE
PubMed Central
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