Journal
CELLULAR AND MOLECULAR BIOENGINEERING
Volume 13, Issue 1, Pages 27-44Publisher
SPRINGER
DOI: 10.1007/s12195-019-00603-1
Keywords
Mechanobiology; Cytoskeleton; Pancreatic ductal adenocarcinoma; Cell stiffness; Arp2; 3; Formins; Traction forces; Cell motility
Funding
- National Science Foundation [CAREER DBI-1254185, BMMB-1906165]
- Farber Family Foundation
- UCLA Integrative Biology & Physiology Eureka Scholarship
- National Institutes of Health [R01 GM110482]
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IntroductionMetastasis is a fundamentally physical process in which cells deform through narrow gaps and generate forces to invade surrounding tissues. While it is commonly thought that increased cell deformability is an advantage for invading cells, we previously found that more invasive pancreatic ductal adenocarcinoma (PDAC) cells are stiffer than less invasive PDAC cells. Here we investigate potential mechanisms of the simultaneous increase in PDAC cell stiffness and invasion, focusing on the contributions of myosin II, Arp2/3, and formins.MethodWe measure cell invasion using a 3D scratch wound invasion assay and cell stiffness using atomic force microscopy (AFM). To determine the effects of actin- and myosin-mediated force generation on cell stiffness and invasion, we treat cells with pharmacologic inhibitors of myosin II (blebbistatin), Arp2/3 (CK-666), and formins (SMIFH2).ResultsWe find that the activity of myosin II, Arp2/3, and formins all contribute to the stiffness of PDAC cells. Interestingly, we find that the invasion of PDAC cell lines is differentially affected when the activity of myosin II, Arp2/3, or formins is inhibited, suggesting that despite having similar tissue origins, different PDAC cell lines may rely on different mechanisms for invasion.ConclusionsThese findings deepen our knowledge of the factors that regulate cancer cell mechanotype and invasion, and incite further studies to develop therapeutics that target multiple mechanisms of invasion for improved clinical benefit.
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