Abstract
Cell behaviors are reflections of intracellular tension dynamics and play important roles in many cellular processes. In this study, temporal variations in cell geometry and cell motion through cell cycle progression were quantitatively characterized via automated cell tracking for MCF-10A non-transformed breast cells, MCF-7 non-invasive breast cancer cells, and MDA-MB-231 highly metastatic breast cancer cells. A new cell segmentation method, which combines the threshold method and our modified edge based active contour method, was applied to optimize cell boundary detection for all cells in the field-of-view. An automated cell-tracking program was implemented to conduct live cell tracking over 40 hours for the three cell lines. The cell boundary and location information was measured and aligned with cell cycle progression with constructed cell lineage trees. Cell behaviors were studied in terms of cell geometry and cell motion. For cell geometry, cell area and cell axis ratio were investigated. For cell motion, instantaneous migration speed, cell motion type, as well as cell motion range were analyzed. We applied a cell-based approach that allows us to examine and compare temporal variations of cell behavior along with cell cycle progression at a single cell level. Cell body geometry along with distribution of peripheral protrusion structures appears to be associated with cell motion features. Migration speed together with motion type and motion ranges are required to distinguish the three cell-lines examined. We found that cells dividing or overlapping vertically are unique features of cell malignancy for both MCF-7 and MDA-MB-231 cells, whereas abrupt changes in cell body geometry and cell motion during mitosis are unique to highly metastatic MDA-MB-231 cells. Taken together, our live cell tracking system serves as an invaluable tool to identify cell behaviors that are unique to malignant and/or highly metastatic breast cancer cells.
Highlights
Cell behaviors, including morphology changes and migration variations, are reflections of intracellular tension dynamics
We aim to develop a live cell-tracking platform that allows us to conduct quantitative measurements of temporal changes in cell geometry and cell motion through distinct phases of the cell cycle for individual cells
The capability of our live cell tracking system is applied to three well-characterized human breast cell lines, MCF-10A, MCF-7 and MDA-MB-231
Summary
Cell behaviors, including morphology changes and migration variations, are reflections of intracellular tension dynamics. Cell migration is a coordinated process with constant shape changes associated with assembly and disassembly of actin filaments from the leading edges to the trailing edges, respectively [8]. It plays an important role in embryonic development [9], during which, large amount of cells migrate collectively to form the three layer embryo. Cell behaviors can be related to the onset and progression of many diseases. Most cancer-related deaths are due to metastatic disease, which is a result of cancer cell migration from original locations to remote sites and the formation of secondary tumors [11]
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