Early tissue patterning recreated by mouse embryonic fibroblasts in a three-dimensional environment
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Cellular self-organization studies have been mainly focused on models such as Volvox, the slime mold Dictyostelium discoideum, and animal (metazoan) embryos. Moreover, animal tissues undergoing regeneration also exhibit properties of embryonic systems such as the self-organization process that rebuilds tissue complexity and function. We speculated that the recreation in vitro of the biological, biophysical, and biomechanical conditions similar to those of a regenerative milieu could elicit the intrinsic capacity of differentiated cells to proceed to the development of a tissue-like structure. Here we show that, when primary mouse embryonic fibroblasts are cultured in a soft nanofiber scaffold, they establish a cellular network that causes an organized cell contraction, proliferation, and migration that ends in the formation of a symmetrically bilateral structure with a distinct central axis. A subset of mesodermal genes (brachyury, Sox9, Runx2) is upregulated during this morphogenetic process. The expression of brachyury was localized first at the central axis, extending then to both sides of the structure. The spontaneous formation of cartilage-like tissue mainly at the paraxial zone followed expression of Sox9 and Runx2. Because cellular self-organization is an intrinsic property of the tissues undergoing development, this model could lead to new ways to consider tissue engineering and regenerative medicine.
Date issued
2009-07Department
Massachusetts Institute of Technology. Center for Biomedical EngineeringJournal
Tissue Engineering. Part A
Publisher
Mary Ann Liebert, Inc.
Citation
Quintana, Lluís et al. “Early Tissue Patterning Recreated by Mouse Embryonic Fibroblasts in a Three-Dimensional Environment.” Tissue Engineering Part A 15.1 (2009) : 45-54. © 2009 Mary Ann Liebert, Inc.
Version: Final published version
ISSN
1937-3341
1937-335X