Dendritic Fibroblasts in Three-dimensional Collagen Matrices

doi:10.1091/mbc.E02-08-0493

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Originally published as MBC in Press, 10.1091/mbc.E02-08-0493 on November 18, 2002

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Vol. 14, Issue 2, 384-395, February 2003

Dendritic Fibroblasts in Three-dimensional Collagen Matrices

Frederick Grinnell,^* Chin-Han Ho, Elisa Tamariz, David J. Lee, and Gabriella Skuta

Department of Cell Biology, University of Texas Southwestern Medical School, Dallas, Texas 75390-9039

Cell motility determines form and function of multicellular organisms. Most studies on fibroblast motility have been carriedout using cells on the surfaces of culture dishes. In situ, however,the environment for fibroblasts is the three-dimensional extracellularmatrix. In the current research, we studied the morphology andmotility of human fibroblasts embedded in floating collagen matricesat a cell density below that required for global matrix remodeling(i.e., contraction). Under these conditions, cells were observedto project and retract a dendritic network of extensions. Theseextensions contained microtubule cores with actin concentratedat the tips resembling growth cones. Platelet-derived growth factorpromoted formation of the network; lysophosphatidic acid stimulatedits retraction in a Rho and Rho kinase-dependent manner. The dendriticnetwork also supported metabolic coupling between cells. We suggestthat the dendritic network provides a mechanism by which fibroblastsexplore and become interconnected to each other in three-dimensionalspace.

^* Corresponding author. E-mail address: frederick.grinnell{at}utsouthwestern.edu.

Present addresses: Physicians' Education Resource, 3535 Worth Street, Dallas, TX 75246; 1750 Kalakaua Avenue 2404, Honolulu, HI96826.

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