Cell Motility and Mechanics in Three-Dimensional Collagen Matrices

Supplemental Material

Supplementary Data

• Download Supplemental Figures and Tables as a PDF. Contents include:

  • Supplemental Figures 1-5 (including additional references)
  • Supplemental Table 1: Collagen matrix contraction by various cell types (includes references)
  • Supplemental Table 2: Collagen matrix contraction agonists (includes references

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  Supplemental Video 1: Time-lapse video microscopy of cell migration shows that in addition to cells migrating out of the inner matrix, collagen fibrils in the outer matrix translocate toward the interface between the outer and inner matrices. Download movie file (MOV)

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  Supplemental Video 2: PDGF-stimulated migration occurs by repeated protrusion and retraction of dendritic processes with small tractional forces localized to the tips. Download movie file (MOV)

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  Supplemental Video 3: Serum-stimulated migration results in larger and more sustained tractional forces at the leading edge and more pronounced rupture of cell-matrix adhesions at the rear, which results in elastic tail recoil and release of matrix tension. Download movie file (MOV)

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  Supplemental Video 4: Bard and Hay introduced DIC imaging to visualize corneal embryonic fibroblast migration in situ and in collagen matrices. This approach allowed direct visualization of the local collagen fibril organization surrounding the cells. Improved optics and digital imaging now allow these processes to be studied with high temporal and spatial resolution. Download movie file (MOV)

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  Supplemental Video 5: DIC analysis of green fluorescent protein (GFP)-zyxin expressing fibroblasts spreading on or within collagen matrices shows that new focal adhesions form at the tips of pseudopodia while existing adhesions move backward. Simultaneously, adhesions at the base of pseudopodia move toward those at the tip, resulting in a region of contractile-like shortening and matrix compression. Download movie file (MOV)

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  Supplemental Video 6: Inhibiting Rho kinase results in extension of cell pseudopodia and reversible relaxation of cell-induced tension on the matrix. Download movie file (MOV)

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  Supplemental Video 7: Inward tractional forces are generated as cell pseudopodia extend outward following treatment of corneal fibroblasts in restrained collagen matrices with PDGF. Download movie file (MOV)

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  Supplemental Video 8: Reducing effective matrix stiffness by pushing toward the front of a cell results in rapid cellular shortening with corresponding matrix compression along the cell body, similar to the shortening produced by releasing one end of a rubber band that is under tension. Download movie file (MOV)